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Education During Coronavirus

A Smithsonian magazine special report

Science | June 15, 2020

Seventy-Five Scientific Research Projects You Can Contribute to Online

From astrophysicists to entomologists, many researchers need the help of citizen scientists to sift through immense data collections

Rachael Lallensack

Former Assistant Editor, Science and Innovation

If you find yourself tired of streaming services, reading the news or video-chatting with friends, maybe you should consider becoming a citizen scientist. Though it’s true that many field research projects are paused , hundreds of scientists need your help sifting through wildlife camera footage and images of galaxies far, far away, or reading through diaries and field notes from the past.

Plenty of these tools are free and easy enough for children to use. You can look around for projects yourself on Smithsonian Institution’s citizen science volunteer page , National Geographic ’s list of projects and CitizenScience.gov ’s catalog of options. Zooniverse is a platform for online-exclusive projects , and Scistarter allows you to restrict your search with parameters, including projects you can do “on a walk,” “at night” or “on a lunch break.”

To save you some time, Smithsonian magazine has compiled a collection of dozens of projects you can take part in from home.

American Wildlife

If being home has given you more time to look at wildlife in your own backyard, whether you live in the city or the country, consider expanding your view, by helping scientists identify creatures photographed by camera traps. Improved battery life, motion sensors, high-resolution and small lenses have made camera traps indispensable tools for conservation.These cameras capture thousands of images that provide researchers with more data about ecosystems than ever before.

Smithsonian Conservation Biology Institute’s eMammal platform , for example, asks users to identify animals for conservation projects around the country. Currently, eMammal is being used by the Woodland Park Zoo ’s Seattle Urban Carnivore Project, which studies how coyotes, foxes, raccoons, bobcats and other animals coexist with people, and the Washington Wolverine Project, an effort to monitor wolverines in the face of climate change. Identify urban wildlife for the Chicago Wildlife Watch , or contribute to wilderness projects documenting North American biodiversity with The Wilds' Wildlife Watch in Ohio , Cedar Creek: Eyes on the Wild in Minnesota , Michigan ZoomIN , Western Montana Wildlife and Snapshot Wisconsin .

"Spend your time at home virtually exploring the Minnesota backwoods,” writes the lead researcher of the Cedar Creek: Eyes on the Wild project. “Help us understand deer dynamics, possum populations, bear behavior, and keep your eyes peeled for elusive wolves!"

A baby elephant stands between the legs of an adult elephant.

If being cooped up at home has you daydreaming about traveling, Snapshot Safari has six active animal identification projects. Try eyeing lions, leopards, cheetahs, wild dogs, elephants, giraffes, baobab trees and over 400 bird species from camera trap photos taken in South African nature reserves, including De Hoop Nature Reserve and Madikwe Game Reserve .

With South Sudan DiversityCam , researchers are using camera traps to study biodiversity in the dense tropical forests of southwestern South Sudan. Part of the Serenegeti Lion Project, Snapshot Serengeti needs the help of citizen scientists to classify millions of camera trap images of species traveling with the wildebeest migration.

Classify all kinds of monkeys with Chimp&See . Count, identify and track giraffes in northern Kenya . Watering holes host all kinds of wildlife, but that makes the locales hotspots for parasite transmission; Parasite Safari needs volunteers to help figure out which animals come in contact with each other and during what time of year.

Mount Taranaki in New Zealand is a volcanic peak rich in native vegetation, but native wildlife, like the North Island brown kiwi, whio/blue duck and seabirds, are now rare—driven out by introduced predators like wild goats, weasels, stoats, possums and rats. Estimate predator species compared to native wildlife with Taranaki Mounga by spotting species on camera trap images.

The Zoological Society of London’s (ZSL) Instant Wild app has a dozen projects showcasing live images and videos of wildlife around the world. Look for bears, wolves and lynx in Croatia ; wildcats in Costa Rica’s Osa Peninsula ; otters in Hampshire, England ; and both black and white rhinos in the Lewa-Borana landscape in Kenya.

An image featuring marine life from Invader ID.

Under the Sea

Researchers use a variety of technologies to learn about marine life and inform conservation efforts. Take, for example, Beluga Bits , a research project focused on determining the sex, age and pod size of beluga whales visiting the Churchill River in northern Manitoba, Canada. With a bit of training, volunteers can learn how to differentiate between a calf, a subadult (grey) or an adult (white)—and even identify individuals using scars or unique pigmentation—in underwater videos and images. Beluga Bits uses a “ beluga boat ,” which travels around the Churchill River estuary with a camera underneath it, to capture the footage and collect GPS data about the whales’ locations.

Many of these online projects are visual, but Manatee Chat needs citizen scientists who can train their ear to decipher manatee vocalizations. Researchers are hoping to learn what calls the marine mammals make and when—with enough practice you might even be able to recognize the distinct calls of individual animals.

Several groups are using drone footage to monitor seal populations. Seals spend most of their time in the water, but come ashore to breed. One group, Seal Watch , is analyzing time-lapse photography and drone images of seals in the British territory of South Georgia in the South Atlantic. A team in Antarctica captured images of Weddell seals every ten minutes while the seals were on land in spring to have their pups. The Weddell Seal Count project aims to find out what threats—like fishing and climate change—the seals face by monitoring changes in their population size. Likewise, the Año Nuevo Island - Animal Count asks volunteers to count elephant seals, sea lions, cormorants and more species on a remote research island off the coast of California.

With Floating Forests , you’ll sift through 40 years of satellite images of the ocean surface identifying kelp forests, which are foundational for marine ecosystems, providing shelter for shrimp, fish and sea urchins. A project based in southwest England, Seagrass Explorer , is investigating the decline of seagrass beds. Researchers are using baited cameras to spot commercial fish in these habitats as well as looking out for algae to study the health of these threatened ecosystems. Search for large sponges, starfish and cold-water corals on the deep seafloor in Sweden’s first marine park with the Koster seafloor observatory project.

The Smithsonian Environmental Research Center needs your help spotting invasive species with Invader ID . Train your eye to spot groups of organisms, known as fouling communities, that live under docks and ship hulls, in an effort to clean up marine ecosystems.

If art history is more your speed, two Dutch art museums need volunteers to start “ fishing in the past ” by analyzing a collection of paintings dating from 1500 to 1700. Each painting features at least one fish, and an interdisciplinary research team of biologists and art historians wants you to identify the species of fish to make a clearer picture of the “role of ichthyology in the past.”

Pictured is a Zerene eurydice specimen, or California dogface butterfly, caught in 1951.

Interesting Insects

Notes from Nature is a digitization effort to make the vast resources in museums’ archives of plants and insects more accessible. Similarly, page through the University of California Berkeley’s butterfly collection on CalBug to help researchers classify these beautiful critters. The University of Michigan Museum of Zoology has already digitized about 300,000 records, but their collection exceeds 4 million bugs. You can hop in now and transcribe their grasshopper archives from the last century . Parasitic arthropods, like mosquitos and ticks, are known disease vectors; to better locate these critters, the Terrestrial Parasite Tracker project is working with 22 collections and institutions to digitize over 1.2 million specimens—and they’re 95 percent done . If you can tolerate mosquito buzzing for a prolonged period of time, the HumBug project needs volunteers to train its algorithm and develop real-time mosquito detection using acoustic monitoring devices. It’s for the greater good!

Pelicans coming in for landing on PELIcam.

For the Birders

Birdwatching is one of the most common forms of citizen science . Seeing birds in the wilderness is certainly awe-inspiring, but you can birdwatch from your backyard or while walking down the sidewalk in big cities, too. With Cornell University’s eBird app , you can contribute to bird science at any time, anywhere. (Just be sure to remain a safe distance from wildlife—and other humans, while we social distance ). If you have safe access to outdoor space—a backyard, perhaps—Cornell also has a NestWatch program for people to report observations of bird nests. Smithsonian’s Migratory Bird Center has a similar Neighborhood Nest Watch program as well.

Birdwatching is easy enough to do from any window, if you’re sheltering at home, but in case you lack a clear view, consider these online-only projects. Nest Quest currently has a robin database that needs volunteer transcribers to digitize their nest record cards.

You can also pitch in on a variety of efforts to categorize wildlife camera images of burrowing owls , pelicans , penguins (new data coming soon!), and sea birds . Watch nest cam footage of the northern bald ibis or greylag geese on NestCams to help researchers learn about breeding behavior.

Or record the coloration of gorgeous feathers across bird species for researchers at London’s Natural History Museum with Project Plumage .

A pressed Wister's coralroot below a letter and sketch of the flower found in Oct. 1937

Pretty Plants

If you’re out on a walk wondering what kind of plants are around you, consider downloading Leafsnap , an electronic field guide app developed by Columbia University, the University of Maryland and the Smithsonian Institution. The app has several functions. First, it can be used to identify plants with its visual recognition software. Secondly, scientists can learn about the “ the ebb and flow of flora ” from geotagged images taken by app users.

What is older than the dinosaurs, survived three mass extinctions and still has a living relative today? Ginko trees! Researchers at Smithsonian’s National Museum of Natural History are studying ginko trees and fossils to understand millions of years of plant evolution and climate change with the Fossil Atmospheres project . Using Zooniverse, volunteers will be trained to identify and count stomata, which are holes on a leaf’s surface where carbon dioxide passes through. By counting these holes, or quantifying the stomatal index, scientists can learn how the plants adapted to changing levels of carbon dioxide. These results will inform a field experiment conducted on living trees in which a scientist is adjusting the level of carbon dioxide for different groups.

Help digitize and categorize millions of botanical specimens from natural history museums, research institutions and herbaria across the country with the Notes from Nature Project . Did you know North America is home to a variety of beautiful orchid species? Lend botanists a handby typing handwritten labels on pressed specimens or recording their geographic and historic origins for the New York Botanical Garden’s archives. Likewise, the Southeastern U.S. Biodiversity project needs assistance labeling pressed poppies, sedums, valerians, violets and more. Groups in California , Arkansas , Florida , Texas and Oklahoma all invite citizen scientists to partake in similar tasks.

A group of Harvard computers and astronomers.

Historic Women in Astronomy

Become a transcriber for Project PHaEDRA and help researchers at the Harvard-Smithsonian Center for Astrophysics preserve the work of Harvard’s women “computers” who revolutionized astronomy in the 20th century. These women contributed more than 130 years of work documenting the night sky, cataloging stars, interpreting stellar spectra, counting galaxies, and measuring distances in space, according to the project description .

More than 2,500 notebooks need transcription on Project PhaEDRA - Star Notes . You could start with Annie Jump Cannon , for example. In 1901, Cannon designed a stellar classification system that astronomers still use today. Cecilia Payne discovered that stars are made primarily of hydrogen and helium and can be categorized by temperature. Two notebooks from Henrietta Swan Leavitt are currently in need of transcription. Leavitt, who was deaf, discovered the link between period and luminosity in Cepheid variables, or pulsating stars, which “led directly to the discovery that the Universe is expanding,” according to her bio on Star Notes .

Volunteers are also needed to transcribe some of these women computers’ notebooks that contain references to photographic glass plates . These plates were used to study space from the 1880s to the 1990s. For example, in 1890, Williamina Flemming discovered the Horsehead Nebula on one of these plates . With Star Notes, you can help bridge the gap between “modern scientific literature and 100 years of astronomical observations,” according to the project description . Star Notes also features the work of Cannon, Leavitt and Dorrit Hoffleit , who authored the fifth edition of the Bright Star Catalog, which features 9,110 of the brightest stars in the sky.

A microscopic image of white blood cells

Microscopic Musings

Electron microscopes have super-high resolution and magnification powers—and now, many can process images automatically, allowing teams to collect an immense amount of data. Francis Crick Institute’s Etch A Cell - Powerhouse Hunt project trains volunteers to spot and trace each cell’s mitochondria, a process called manual segmentation. Manual segmentation is a major bottleneck to completing biological research because using computer systems to complete the work is still fraught with errors and, without enough volunteers, doing this work takes a really long time.

For the Monkey Health Explorer project, researchers studying the social behavior of rhesus monkeys on the tiny island Cayo Santiago off the southeastern coast of Puerto Rico need volunteers to analyze the monkeys’ blood samples. Doing so will help the team understand which monkeys are sick and which are healthy, and how the animals’ health influences behavioral changes.

Using the Zooniverse’s app on a phone or tablet, you can become a “ Science Scribbler ” and assist researchers studying how Huntington disease may change a cell’s organelles. The team at the United Kingdom's national synchrotron , which is essentially a giant microscope that harnesses the power of electrons, has taken highly detailed X-ray images of the cells of Huntington’s patients and needs help identifying organelles, in an effort to see how the disease changes their structure.

Oxford University’s Comprehensive Resistance Prediction for Tuberculosis: an International Consortium—or CRyPTIC Project , for short, is seeking the aid of citizen scientists to study over 20,000 TB infection samples from around the world. CRyPTIC’s citizen science platform is called Bash the Bug . On the platform, volunteers will be trained to evaluate the effectiveness of antibiotics on a given sample. Each evaluation will be checked by a scientist for accuracy and then used to train a computer program, which may one day make this process much faster and less labor intensive.

12 images from the platform showcasing different galactic formations

Out of This World

If you’re interested in contributing to astronomy research from the comfort and safety of your sidewalk or backyard, check out Globe at Night . The project monitors light pollution by asking users to try spotting constellations in the night sky at designated times of the year . (For example, Northern Hemisphere dwellers should look for the Bootes and Hercules constellations from June 13 through June 22 and record the visibility in Globe at Night’s app or desktop report page .)

For the amateur astrophysicists out there, the opportunities to contribute to science are vast. NASA's Wide-field Infrared Survey Explorer (WISE) mission is asking for volunteers to search for new objects at the edges of our solar system with the Backyard Worlds: Planet 9 project .

Galaxy Zoo on Zooniverse and its mobile app has operated online citizen science projects for the past decade. According to the project description, there are roughly one hundred billion galaxies in the observable universe. Surprisingly, identifying different types of galaxies by their shape is rather easy. “If you're quick, you may even be the first person to see the galaxies you're asked to classify,” the team writes.

With Radio Galaxy Zoo: LOFAR , volunteers can help identify supermassive blackholes and star-forming galaxies. Galaxy Zoo: Clump Scout asks users to look for young, “clumpy” looking galaxies, which help astronomers understand galaxy evolution.

If current events on Earth have you looking to Mars, perhaps you’d be interested in checking out Planet Four and Planet Four: Terrains —both of which task users with searching and categorizing landscape formations on Mars’ southern hemisphere. You’ll scroll through images of the Martian surface looking for terrain types informally called “spiders,” “baby spiders,” “channel networks” and “swiss cheese.”

Gravitational waves are telltale ripples in spacetime, but they are notoriously difficult to measure. With Gravity Spy , citizen scientists sift through data from Laser Interferometer Gravitational-Wave Observatory, or LIGO , detectors. When lasers beamed down 2.5-mile-long “arms” at these facilities in Livingston, Louisiana and Hanford, Washington are interrupted, a gravitational wave is detected. But the detectors are sensitive to “glitches” that, in models, look similar to the astrophysical signals scientists are looking for. Gravity Spy teaches citizen scientists how to identify fakes so researchers can get a better view of the real deal. This work will, in turn, train computer algorithms to do the same.

Similarly, the project Supernova Hunters needs volunteers to clear out the “bogus detections of supernovae,” allowing researchers to track the progression of actual supernovae. In Hubble Space Telescope images, you can search for asteroid tails with Hubble Asteroid Hunter . And with Planet Hunters TESS , which teaches users to identify planetary formations, you just “might be the first person to discover a planet around a nearby star in the Milky Way,” according to the project description.

Help astronomers refine prediction models for solar storms, which kick up dust that impacts spacecraft orbiting the sun, with Solar Stormwatch II. Thanks to the first iteration of the project, astronomers were able to publish seven papers with their findings.

With Mapping Historic Skies , identify constellations on gorgeous celestial maps of the sky covering a span of 600 years from the Adler Planetarium collection in Chicago. Similarly, help fill in the gaps of historic astronomy with Astronomy Rewind , a project that aims to “make a holistic map of images of the sky.”

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Rachael Lallensack | READ MORE

Rachael Lallensack is the former assistant web editor for science and innovation at Smithsonian .

Science Bob

Experiments
Science Fair Ideas
Science Q&A
Research Help
Experiment Blog

Okay, this is the hardest part of the whole project…picking your topic. But here are some ideas to get you started. Even if you don’t like any, they may inspire you to come up with one of your own. Remember, check all project ideas with your teacher and parents, and don’t do any project that would hurt or scare people or animals. Good luck!

Does music affect on animal behavior?
Does the color of food or drinks affect whether or not we like them?
Where are the most germs in your school? ( CLICK for more info. )
Does music have an affect on plant growth?
Which kind of food do dogs (or any animal) prefer best?
Which paper towel brand is the strongest?
What is the best way to keep an ice cube from melting?
What level of salt works best to hatch brine shrimp?
Can the food we eat affect our heart rate?
How effective are child-proof containers and locks.
Can background noise levels affect how well we concentrate?
Does acid rain affect the growth of aquatic plants?
What is the best way to keep cut flowers fresh the longest?
Does the color of light used on plants affect how well they grow?
What plant fertilizer works best?
Does the color of a room affect human behavior?
Do athletic students have better lung capacity?
What brand of battery lasts the longest?
Does the type of potting soil used in planting affect how fast the plant grows?
What type of food allow mold to grow the fastest?
Does having worms in soil help plants grow faster?
Can plants grow in pots if they are sideways or upside down?
Does the color of hair affect how much static electricity it can carry? (test with balloons)
How much weight can the surface tension of water hold?
Can some people really read someone else’s thoughts?
Which soda decays fallen out teeth the most?
What light brightness makes plants grow the best?
Does the color of birdseed affect how much birds will eat it?
Do natural or chemical fertilizers work best?
Can mice learn? (you can pick any animal)
Can people tell artificial smells from real ones?
What brands of bubble gum produce the biggest bubbles?
Does age affect human reaction times?
What is the effect of salt on the boiling temperature of water?
Does shoe design really affect an athlete’s jumping height?
What type of grass seed grows the fastest?
Can animals see in the dark better than humans?

Didn’t see one you like? Don’t worry…look over them again and see if they give you an idea for your own project that will work for you. Remember, find something that interests you, and have fun with it.

To download and print this list of ideas CLICK HERE .

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Biology Research Projects for High School Students: 20 Ideas To Try This Summer

By János Perczel

Co-founder of Polygence, PhD from MIT

16 minute read

Biology and biomedical research are two of the most popular academic disciplines among high schoolers. If you’re someone who’s interested in those fields and you’re looking for research opportunities this summer, you’ve come to the right place! With the study of biology, not only can you gain a better understanding of the natural world, but your research can have practical applications in fields like medicine, agriculture, and environmental science. Whether you’re just starting out in your exploration of biology, have taken a biology class in school, or you’re looking to do some advanced research to submit to your state’s science fair , we have level-appropriate ideas for you!

With a variety of topics like cancer treatment, genetics, neurodegenerative diseases, and marine life, we’ve got you covered. Here is a curated list of 20 different research project ideas to get those creative juices flowing. If you’re hungry for more, head over to our comprehensive Project Ideas database here and browse over 2800 more ideas!

Research YOUR fave areas of Biology and Medicine

Polygence pairs you with an expert mentor in to create a passion project around biology and medicine. Together, you work to create a high quality research project that is uniquely your own. We also offer options to explore multiple topics, or to showcase your final product!

Human Body Project Ideas

Rate of cognitive decline in different elevations.

Oxygen partial pressure decreases with altitude, challenging blood oxygenation which may affect brain function. If you’ve ever felt some altitude sickness, then this is exactly what’s happening. This is because the atmospheric pressure decreases at higher elevations, leading to a decrease in the partial pressures of the gasses in the air, including oxygen. And of course, oxygen is needed for us to function. What is the effect on brain health/ cognition in sudden increased elevation: say, climbing Mount Everest? Does chronic exposure to high elevations increase the likelihood of dementia? In this project, a meta-analysis of published works examining the effects of altitude on cognition would be conducted.

Idea by mentor Alyssa

Building a Blood Vessel

Use online graphics to illustrate how a blood vessel forms. Blood vessels are structures that carry blood and are responsible for transporting nutrients and oxygen throughout the body. There are three main types of blood vessels: arteries, veins, and capillaries. For this project, complete a literature search to understand what is known about blood vessel growth. Then, utilize this information to generate a graphic with no words to demonstrate how the vasculature (network of blood vessels) forms. The goal of this project is to explain science without using text and therefore make it more available to a larger community.

Idea by mentor Natalie

Examining the bacterial profile of various households

As of late, bacterial microbiomes have been a huge and interesting topic in the field of bacteriology as they play an important role in human health. Bacterial microbiomes are communities of bacteria that live on or outside organisms. They’re found in various parts of the human body, and help us to digest food and regulate our immune system. In this project, you will seek to understand how skin microbiomes can differ between different individuals of different households. This project will require making different bacterial media that can be made at home selecting for various microorganisms. If you’re new to preparing bacterial media, check out this resource here!

Idea by mentor Hamilton

Regulation of Circadian Clocks

Sleep is known to be governed by two distinct processes: a circadian clock that aligns sleep and wakefulness to the solar day and the sleep homeostat that encodes for sleep debt as a compensatory mechanism against sleep loss. You’ve most likely heard about circadian rhythm and our body’s internal clock, and circadian regulation of sleep is a fundamental process that allows animals to anticipate sleepiness or wakefulness consistently every day. These mechanisms can be regulated in multiple ways: at the gene, protein, gene, and clock neuronal level. In this project, we will focus on 1) how to efficiently digest primary and review articles to compile and condense information, 2) investigate how circadian clocks are regulated at these different genetic levels, and 3) try to effectively summarize the information we've gathered. We can present this information in a variety of ways, and what the final product looks like is up to you.

Idea by mentor Oscar

The Biology of Aging

Aging is the number one risk factor for a variety of diseases including cancer, neurodegenerative disease, and loss of hearing/sight. We are only now beginning to truly understand the process of aging and have even started to uncover ways that we could stop, or potentially reverse, the effects of aging. What are the hallmarks/signs of aging? How do researchers study 'aging'? How does human lifespan and aging compare to the rest of the animal kingdom? Is it possible to stop or reverse the effects of aging? What advancements are being made related to this? We could explore these questions or brainstorm others you might have about the biology of aging.

Idea by mentor Emily

Animals, Plants, and Nature Project Ideas

How genetically engineered mosquitoes are reducing rates of vector-borne diseases such as zika.

Many countries are already releasing millions of genetically engineered mosquitoes into the wild every week. These mosquitoes have been modified to reduce their ability to transmit disease-causing pathogens like dengue fever, Zika, and malaria, and are sent into the wild to mate with disease-carrying mosquitoes. However, this is still controversial as some people are concerned about the unintended consequences on the environment. What could be the potential pros and cons for this? The project will mainly focus on doing meta analysis of articles and watching informative videos to understand how/why genetically engineered mosquitoes can be used to reduce rates of different diseases. Students will have the chance to use critical thinking and do in-depth research on genetic engineering techniques, how scientists determine breeding rates and number of insects released, and epidemiology of different bloodborne diseases.

Idea by mentor Vanessa

Efficacy of Marine Protected Areas

Marine protected areas (MPAs) are areas of ocean or coastal waters that are set aside for the conservation and sustainable use of marine resources. These areas are established by governments, NGOs, or other organizations, and they can take different forms, from fully protected "no-take" zones to areas with regulated fishing or other activities. Marine protected areas have the potential to guide sustainable resource management and protect biodiversity, but have a host of reasons for why they are not currently effective. Explore reasons for why MPAs may not be effective. Then develop a framework for mapping, modeling, and implementing an effective Marine Protected Area.

Bioinspiration: Do animals hold the answers?

Can the toxins produced by frogs help us fight antibiotic resistant bacteria strains? How can understanding how lizards and newts regrow their limbs help us improve wound treatment? Why do tilapia skins help with burns? Discover the role of animals in the development of modern medicine as well as its potential. Are there any ethical concerns with these developments and findings? If so, what are they and do they matter? Share your findings in a research proposal, article, or presentation.

Idea by mentor Cheyenne

How Climate Change Can Affect Future Distributions of Rare Species

Climate change, such as global warming and longer drought, can threaten the existence of some of the rarest plants on earth. It is important to understand how future suitable habitats will change for these rare species so that we can target our conservation efforts in specific areas. In this project, you will identify a rare species that you like (it can be animals, plants, or fungi!), and gather the data online on its current occurrences. Then you will learn how to perform species distribution modeling to map its current and future suitable habitat areas. To get you started on learning species distribution modeling, check out this Youtube resource here. The changes in the amount or location of future suitable habitats can significantly affect the destiny of a rare species. By doing this project, you will not only learn skills in data analyses but also become the best ambassador for this rare species that you love.

Idea by mentor Yingtong

A Reef’s Best Frenemies

Coral reefs are in global decline. A primary cause of this is "coral bleaching" which results in the white reefs we often see in the news. Coral bleaching is actually the breakdown in the partnership between the coral animal and tiny, symbiotic algae that live within its cells. Corals and algae have a variety of thermal tolerances which are likely decided by genetic and environmental factors. However, despite how important this relationship is, it's currently very poorly understood. This project would review existing literature on the symbiotic partnernship and try to identify factors that predict bleaching and thermal resilience.

Idea by mentor Carly

Dive in to BioMed NOW!

Register to get paired with one of our expert mentors and to get started on exploring your passions today! You have agency in setting up your schedule for this research. Dive in now!

Diseases and Treatments Project Ideas

The understanding of a new and upcoming treatment: immunotherapy.

Immunotherapies have been growing in the past few years as alternative treatments for many types of cancer. These treatments work by boosting the patient's immune system to fight the disease, however it is not always effective. There are many types of immunotherapies with various nuances, but they all work to attack specific cells that are causing the disease. For this project, pick one of a few types of immunotherapy and deeply understand the mechanism of action and what is the current effectiveness against the cancer it treats.

Idea by mentor Hannah

Exploring The Cancer Genome Atlas data

There has been an explosion of publicly available data for cancer. The Cancer Genome Atlas was a research program with the purpose of creating a comprehensive catalog of genomic and molecular information about different types of cancer, with the aim of improving our understanding of the disease and developing new treatments. The dataset has been used to identify new cancer subtypes, develop diagnostic tests, and discover potential targets for new cancer therapies. Explore the implications and impact of The Cancer Genome Atlas data, and why it’s become so important.

Idea by mentor Hersh

Systematic Review and Meta-Analysis of Physiological Benefits of Fasting-induced Autophagy

Autophagy, meaning "self-eating", is a cellular process where damaged or unwanted components are disposed. Autophagy has been linked to various diseased pathologies, including cancer and heart disease. Fasting or specific dietary lifestyles may induce levels of autophagy in the human body. In this project, we will perform and systematic review and meta-analysis of fasting or diet-induced autophagy and its benefits on the body. You will gain skills in 1) searching and reviewing primary literature, 2) computational skills for performing data analysis (R language), and 3) writing your scientific findings.

Idea by mentor Jose

The Amyloid Hypothesis: Sifting through the controversy

For many years, scientists have thought that amyloid beta was the protein responsible for a patient developing Alzheimer's Disease symptoms. This "Amyloid Hypothesis" is now being questioned in light of current clinical data. Recently, drugs have been developed that reduce amyloid beta in patients. Surprisingly, the drugs worked in reducing amyloid beta, but it did not result in the slowing of disease pathology. Does this mean that the amyloid hypothesis is incorrect? Is amyloid beta less important in the progression of disease then what we once thought? This research project aims to explore the issues with the amyloid hypothesis and to assess where we stand in our understanding of amyloid beta's contribution to Alzheimer’s.

Idea by mentor Patrick

How do vaccines work?

During the COVID pandemic, vaccines have been all over the news! But how do they actually work? What’s the science behind them? Through this project, you will explore how vaccines work and the history of science behind vaccine development. While the final product of the projectwill be up to you, the ultimate goal of this project is for you to be a true public health advocate for vaccines and to be able to communicate why vaccines are so important in a way that the general public can understand.

Idea by mentor Helen

Sleep Disruption Profiles in Various Mouse Models of Alzheimer’s

Alzheimer's disease (AD) has been studied for decades but we are no closer to understanding the mechanisms of the disease. Because of the vast number of researchers studying AD, there are numerous models used to study the disease. All these models have different sleep profiles, phenotypes, disease onsets, sex differences etc. Therefore, in this project we will compile a document based on extensive literature review about the various models there are. We will focus on sleep profiles in these animals with an emphasis on male and female differences. This information is valuable because it is important to know which model is best to use to answer your scientific questions and there is a lot of criticism (by other scientists) that can be brought on by the model chosen so you need to be able to justify your choice. This project will also introduce you to the world of AD research and some of the gaps in knowledge in the field.

Idea by mentor Shenee

Rethinking The Treatment Of Neurodegenerative Diseases

Neurodegenerative diseases affect millions of people worldwide. They are conditions that affect the nervous system, particularly the brain and spinal cord, and examples include Alzheimer’s and Parkinson’s. While billions of dollars have been spent trying to find treatments for the disease, very few drugs and therapies have had a meaningful impact on slowing down disease progression. This is often because by the time someone is diagnosed with a disease, it has progressed too far for a treatment to have a substantial effect. Some recent approaches to treatment have turned to looking for early indications of the disease (termed "biomarkers") that can occur before the onset of symptoms. By diagnosing disease and beginning treatment before symptoms arise, these treatments could have a more profound effect in slowing down the progression of disease. Students could review the recent progress being made on identifying biomarkers for neurodegenerative diseases, and either write a paper or even record a podcast on their findings!

Idea by mentor David

Genetics Project Ideas

Height and genetics: nature or nurture.

How much do your genes determine your height? How much do nutrition and environmental factors play a role? What gene variants are implicated in height differences and what is the role of epigenetics? Epigenetics is the study of heritable changes in gene expression or cellular phenotype that occur without changes to the underlying DNA sequence. These changes can be influenced by diet and lifestyle. We will access and analyze an open dataset on twins to estimate the correlation between monozygotic twins (who have the exact same DNA) and height. You will learn to use R to open a dataset, analyze data with statistical methods such the student’s t-test, and display your data as graphs and charts. Finally, you will learn how to make a research presentation on height and genetics, describe the research methods, and present the data in a compelling and thorough way.

Idea by mentor Adeoluwa

The World of Personalized Medicine

Similar to our fingerprints, our genetic code is also unique to each individual person. Our genetic code is what determines our hair color, height, eye color, skin tone...just about everything! For those that develop diseases such as cancer, their genetic code found inside the malignant cells that comprise a tumor may also be unique to them or to certain groups of people with similar mutations (the drivers of disease). So why is it that we treat each person the same way even though the genetic drivers of that disease may be disparate? The world of Personalized Medicine is new and exciting and looks to circumvent this problem. Personalized Medicine (also known as precision medicine) uses the genetic code of a patients disease to guide treatment options that prove to be highly efficacious. Together, lets write a review on a disease of your choice that could benefit from Personalized Medicine based on current literature and research.

Idea by mentor Somer

General Biology Project Ideas

Teach a biology concept two ways: to your fellow students and to the general public.

One of the best ways to learn is to teach. Choose a biological concept that interests you and prepare a lesson and or demo on it. The format should be a video recording of yourself teaching (a la Khan Academy or a Zoom class), but the other details are up to you. Consider incorporating a demonstration (e.g. how can you use items from your kitchen to illustrate properties of mixtures?) or animation (e.g. to illustrate molecular motion). Also consider how you will check that your students understand the concept(s) and/or skill(s) you have taught them. Prepare and record two versions of your lesson: one intended for your peers and one for the general public. How will the versions differ to reflect these different audiences? You will learn what it's like to teach, gain a much greater understanding of your chosen concept(s)/skill(s), and learn how to communicate science to different audiences.

Idea by mentor Alexa

Once you’ve picked a project idea, check out some of our resources to help you progress with your project! Whether you’re stuck on how to cite sources , how to come up with a great thesis statement , or how to showcase your work once it’s finished , we’ve created blog posts to help you out. If you’re interested in doing one of the biology research projects with the help of an amazing mentor at Polygence, apply now ! If you would like some help with coming up with your own idea, book a complimentary consultation call with our admissions team here ! For more biology and science research information, check out our comprehensive list of research opportunities for high school students .

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110+ Best Science Investigatory Project Topics: Dive into Science

Post author By admin
September 29, 2023

Explore a wide range of science investigatory project topics to engage in innovative research and make significant contributions to the field.

Get ready to dive headfirst into the thrilling world of Science Investigatory Project (SIP) topics! Imagine a journey where you become a scientist, an explorer of the unknown, and a solver of real-world puzzles.

This is what SIP offers – a chance to channel your inner curiosity and creativity into the fascinating realm of science.

From unlocking the secrets of life in biology to experimenting with the wonders of chemistry, from unraveling the mysteries of the universe in physics to addressing vital environmental issues – SIP topics are your keys to a world of exploration.

In this adventure, we’ll guide you through an array of captivating SIP ideas. These topics aren’t just assignments; they’re opportunities to uncover new knowledge, make a difference, and have a blast along the way.

So, gear up for an exciting journey, as we unveil the science topics that could spark your imagination and fuel your passion for discovery. Let’s begin!

Table of Contents

What is a Science Investigatory Project?

Imagine stepping into the shoes of a scientist – asking questions, running experiments, and discovering the secrets of the world around you. That’s exactly what a Science Investigatory Project, or SIP, is all about.

At its core, a SIP is a thrilling journey of scientific exploration. It’s a project that challenges you to pick a problem, make educated guesses (that’s your hypothesis), roll up your sleeves for experiments, collect data, and connect the dots to find answers.

Here’s how it works

Step 1: the mystery.

You start with a question – something that piques your curiosity. It could be anything from “Why do plants grow towards the light?” to “What makes the sky blue?” Your SIP is your ticket to unravel these mysteries.

Step 2: The Guess

Next comes your hypothesis – a fancy word for your best guess at the answer. It’s like saying, “I think this is what’s happening, and here’s why.”

Step 3: The Detective Work

Now, it’s time for the fun part – experimenting! You set up tests, tweak variables, and observe closely. Whether you’re mixing chemicals, observing insects, or measuring temperature, you’re the scientist in charge.

Step 4: Clues and Evidence

As you experiment, you collect clues in the form of data – numbers, measurements, observations. It’s like gathering puzzle pieces.

Step 5: The “Aha!” Moment

When you analyze your data, patterns start to emerge. You connect those puzzle pieces until you have a clear picture. Does your data support your guess (hypothesis), or do you need to rethink things?

Step 6: Sharing Your Discovery

Scientists don’t keep their findings to themselves. They share them with the world. Your SIP report or presentation is your chance to do just that. You explain what you did, what you found, and why it matters.

So, why do SIPs matter? They’re not just school projects. They’re your chance to think like a scientist, ask questions like a detective, and discover like an explorer. They’re where you become the expert, the innovator, the problem-solver.

From the mysteries of biology to the wonders of chemistry and the enigmas of physics, SIPs open doors to countless adventures in science. So, what question will you ask? What mystery will you solve? Your SIP journey awaits – embrace it, and you might just uncover something amazing.

Choosing the Right SIP Topic

Choosing the right Science Investigatory Project (SIP) topic is like selecting a path for your scientific adventure. It’s a critical decision, and here’s how to make it count:

Follow Your Passion

Your SIP topic should resonate with your interests. Pick something you’re genuinely curious about. When you’re passionate, the research becomes a thrilling quest, not a chore.

Real-World Relevance

Consider how your topic connects to the real world. Can your research shed light on a problem or offer solutions? SIPs are a chance to make a tangible impact.

Feasibility

Be realistic about the resources at your disposal. Choose a topic that you can explore within your time frame and access to equipment. Avoid overly ambitious projects that might overwhelm you.

Originality Matters

While it’s okay to explore well-trodden paths, strive for a unique angle. What can you add to the existing knowledge? Innovative ideas often lead to exciting discoveries.

Mentor Guidance

If you’re feeling uncertain, don’t hesitate to seek guidance from teachers or mentors. They can help you refine your ideas and offer valuable insights.

Remember, your SIP topic is the compass for your scientific journey. It should excite your curiosity, have real-world significance, and be feasible within your means. So, choose wisely, and let your scientific adventure begin!

Environmental Science

Analyzing the Effects of Urban Green Spaces on Air Quality
Investigating the Impact of Microplastics on Marine Life
Studying the Relationship Between Temperature and Ocean Acidification
Exploring the Effects of Deforestation on Local Ecosystems
Investigating the Factors Contributing to Soil Erosion in a Watershed
Analyzing the Impact of Noise Pollution on Wildlife Behavior
Studying the Relationship Between Temperature and Ice Melt Rates
Investigating the Effect of Urbanization on Local Bird Populations
Exploring the Impact of Air Pollution on Human Health in Urban Areas
Analyzing the Biodiversity of Insects in Urban vs. Rural Environments

Social Sciences

Analyzing the Impact of Social Media Use on Teenagers’ Mental Health
Investigating the Factors Influencing Online Shopping Behavior
Studying the Effects of Different Teaching Methods on Student Engagement
Analyzing the Impact of Parenting Styles on Children’s Academic Performance
Investigating the Relationship Between Music Preferences and Stress Levels
Exploring the Factors Contributing to Workplace Stress and Burnout
Studying the Effects of Socioeconomic Status on Access to Healthcare
Analyzing the Factors Influencing Voting Behavior in Local Elections
Investigating the Impact of Advertising on Consumer Purchasing Decisions
Exploring the Effects of Cultural Diversity on Team Performance in the Workplace

These SIP topics offer a wide range of research opportunities for students in biology, chemistry, physics, and environmental science. Students can choose topics that align with their interests and contribute to their understanding of the natural world.

Conducting Your SIP

So, you’ve picked an exciting Science Investigatory Project (SIP) topic and you’re all set to dive into the world of scientific exploration. But how do you go from a brilliant idea to conducting your own experiments? Let’s break it down into easy steps:

Step 1: Dive into Research

Before you start mixing chemicals or setting up experiments, it’s time for some detective work. Dive into research! What’s already out there about your topic? Books, articles, websites – explore them all. This background study gives you the superpower of knowledge before you even start.

Step 2: Hypothesize Away!

With all that newfound wisdom, formulate a hypothesis. Don your scientist’s hat and make an educated guess about what you think will happen during your experiments. It’s like making a bet with science itself!

Step 3: Time for Action

Now comes the fun part. Design your experiments. What materials do you need? What steps should you follow? Imagine you’re a mad scientist with a plan! Then, go ahead and conduct your experiments. Be precise, follow your plan, and observe like Sherlock.

Step 4: Collect That Data

During your experiments, be a data ninja. Record everything. Measurements, observations, weird surprises – they’re all clues! The more detailed your notes, the better.

Step 5: Decode Your Findings

Time to put on your detective’s hat again. What do your data and observations tell you? Look for patterns, anomalies, and secrets your experiments are revealing. This is where the real magic happens.

Step 6: The Big Reveal

Now, reveal the grand finale – your conclusions! Did your experiments support your hypothesis, or did they throw you a curveball? Discuss what your findings mean and why they matter. It’s like solving the mystery in a thrilling novel.

Step 7: Your SIP Report

Finally, put it all together in your SIP report. Think of it as your scientific storybook. Share your journey with the world. Start with the introduction, add in your methodology, sprinkle your results and discussions, and wrap it up with a conclusion that leaves your readers in awe.

Remember, this isn’t just about science; it’s about your adventure in discovering the unknown. Have fun, be curious, and let your inner scientist shine!

What is a good topic for an investigatory project?

A good topic for an investigatory project depends on your interests and the resources available to you. Here are some broad categories and potential topics to consider:

The Impact of Different Fertilizers on Plant Growth
Investigating the Effect of Air Pollution on Local Plant Life
Analyzing the Quality of Drinking Water from Various Sources
Studying the Growth of Microorganisms in Different Water Types
Creating Biodegradable Plastics from Natural Materials
Investigating the Chemical Composition of Household Cleaning Products
Analyzing the Effects of Different Cooking Oils on Food Nutrition
Testing the pH Levels of Various Household Substances
Studying the Behavior of Ants in Response to Different Food Types
Investigating the Impact of Light Exposure on Seed Germination
Analyzing the Effects of Different Music Types on Plant Growth
Designing and Testing a Simple Wind Turbine
Investigating the Relationship Between Temperature and Electrical Conductivity in Materials
Studying the Behavior of Different Types of Pendulums
Analyzing the Factors Affecting the Efficiency of Solar Panels
Analyzing the Impact of Social Media Use on Teenagers’ Sleep Patterns
Investigating the Factors Influencing Consumer Behavior in Online Shopping
Studying the Effects of Different Teaching Methods on Student Learning
Analyzing the Relationship Between Music Preferences and Mood

Computer Science and Technology

Developing a Smartphone App for Personal Productivity
Investigating the Factors Affecting Wi-Fi Signal Strength in Different Locations
Analyzing the Impact of Screen Time on Productivity and Well-being
Studying the Efficiency of Different Coding Languages in Software Development

When choosing a topic, consider your interests, available resources, and the potential impact of your project. It’s essential to select a topic that excites you and allows you to conduct meaningful research.

Additionally, check with your school or instructor for any specific guidelines or requirements for your investigatory project.

What should I do in a science investigatory project?

So, you’re all set to embark on a thrilling adventure known as a Science Investigatory Project (SIP). But where do you start, and what should you be doing? Here’s your guide to diving headfirst into the world of scientific exploration:

Choose a Topic That Sparks Your Interest

Begin by picking a topic that genuinely excites you. It should be something you’re curious about, like “Why do plants grow towards the light?” or “How does pollution affect local water quality?”

Unleash Your Inner Detective with Background Research

Dive into the world of books, articles, and online resources. Learn everything you can about your chosen topic. It’s like gathering clues to solve a mystery.

Craft Your Hypothesis – Your Educated Guess

Formulate a hypothesis. Think of it as your scientific prediction. What do you think will happen when you investigate your question? Make an educated guess and write it down.

Plan Your Scientific Experiments

Now, let’s get hands-on! Plan your experiments. What materials will you need? What steps will you follow? Imagine you’re a mad scientist with a plan to uncover the secrets of the universe!

Collect Data – Be a Data Ninja

During your experiments, be a data ninja! Record everything meticulously. Measurements, observations, quirky surprises – they’re all part of your data treasure trove.

Decode Your Findings – Be a Scientific Sleuth

Time to decode the clues! Analyze your data like a scientific sleuth. Look for patterns, unexpected twists, and, most importantly, what your experiments are trying to tell you.

Share Your Scientific Tale: The SIP Report

It’s time to tell your scientific tale. Create your SIP report – your storybook of science. Start with the introduction, add in your experiments, sprinkle with results, and wrap it up with a conclusion that leaves your readers in awe.

Share Your Discoveries with the World

If you can, share your SIP findings. Present your work to your classmates, at science fairs, or anywhere you can. Share your excitement about science with the world!

Remember, SIP isn’t just about following steps; it’s about your adventure in discovering the mysteries of the universe. So, stay curious, have fun, and let your inner scientist shine!

What are the best topics for investigatory project chemistry class 12?

Hey there, future chemists! It’s time to explore the fascinating world of Chemistry with some class 12 investigatory project ideas that will not only challenge your scientific skills but also pique your curiosity:

Water Wizardry

Dive into the world of H2O and analyze water samples from different sources – tap water, well water, and that bottled stuff. Let’s uncover the secrets of your hydration!

Biodiesel Bonanza

Ever wondered if you could turn cooking oil into fuel? Investigate the synthesis of biodiesel from everyday vegetable oils, and let’s see if we can power the future with French fries!

Vitamin C Showdown

Put on your lab coat and determine the vitamin C content in various fruit juices. Is your morning OJ really packed with vitamin C? Let’s find out!

Race Against Time – The Iodine Clock

Get ready to race time itself! Study the kinetics of the iodine clock reaction and see how factors like concentration and temperature affect this chemistry marvel.

Shampoo Chemistry

Let’s turn your shower into a science lab! Test the pH levels of different shampoos – are they gentle or are they acidic? Your hair deserves the best!

Heavy Metal Detectives

Investigate soils for heavy metals. Are there hidden dangers lurking beneath our feet? Let’s discover the truth and protect the environment.

Metal Makeover

Ever dreamed of turning ordinary objects into shimmering treasures? Electroplate items like coins or jewelry with various metals and unveil their magical transformations!

The Dye Chronicles

Explore the vibrant world of food dyes used in your favorite treats. What’s really behind those bright colors? Let’s uncover the secrets of our rainbow foods!

Solubility Sleuths

Unravel the mysteries of solubility! How does temperature impact the solubility of common salts? Let’s dissolve some science questions.

Perfume Alchemy

Dive into the world of fragrances! Analyze the chemical components in different perfumes and discover the magic behind your favorite scents.

Remember, the best project is one that not only challenges you but also stirs your scientific curiosity. Choose a topic that excites you, and let your chemistry adventure begin!

What are good science experiment ideas?

Light Dance with Plants: Imagine plants swaying to the rhythm of light! Explore how different types of light affect plant growth – from disco-like colorful LEDs to the soothing glow of natural sunlight.
Kitchen Warriors: Don your lab coat and investigate everyday kitchen items like garlic, honey, and vinegar as germ-fighting superheroes. Who knew your kitchen could be a battleground for bacteria?
Animal Extravaganza: Dive into the world of critters! Observe and report on the curious behaviors of your chosen animal buddies. It’s like being a wildlife detective in your own backyard.
Fizz, Pop, and Bang: Get ready for some explosive fun! Experiment with classic chemical reactions that sizzle and explode, like the volcanic eruption of baking soda and vinegar.
Titration Showdown: Become a master of precision with acid-base titration. Unlock the secrets of unknown solutions, like a chemistry detective solving mysteries.
Crystal Kingdom: Step into the magical world of crystals. Grow your own dazzling crystals and reveal how factors like temperature and concentration influence their growth.
Swingin’ Pendulums: Swing into action with pendulums! Investigate how factors like pendulum length and mass affect the way they sway. It’s like dancing with physics.
Machine Marvels: Enter the world of simple machines. Uncover the mechanical magic behind levers, pulleys, and inclined planes as you lift heavy objects with ease.
Electromagnet Madness: Get electrified! Build your own electromagnet and experiment with coils and currents to see how they shape magnetic fields.
Water Adventure: Dive into water quality testing. Collect samples from different sources and become a water detective, searching for clues about pollution and health.
Air Expedition: Take to the skies with your own air quality station. Discover what’s floating in the air around you, from tiny particles to invisible gases.
Climate Crusaders: Join the battle against climate change. Investigate how shifts in temperature and precipitation patterns impact your local ecosystem.

Earth Science

Rock Detectives: Grab your magnifying glass and investigate rocks and fossils in your area. It’s like traveling through time to uncover Earth’s ancient secrets.
Weather Watchers: Become a meteorologist with your own weather station. Predict the weather and marvel at how the atmosphere behaves around you.
Volcano Eruption Spectacle: Get ready for volcanic eruptions without the lava! Create a stunning volcano model and watch it come to life with your own eruptions.
Starry Nights: Explore the cosmos with a telescope and discover celestial wonders, from the rings of Saturn to the galaxies far, far away.
Moon Phases Odyssey: Join the lunar calendar club! Track the Moon’s different faces over weeks and become an expert on lunar phases.
Solar Eclipse Spectacle: Witness the sky’s ultimate blockbuster – a solar eclipse! Safely observe this cosmic dance with eclipse glasses and telescopes.

These science experiments are not just about learning; they’re about unleashing your inner scientist and having a blast along the way! So, pick your favorite, put on your lab coat, and let the science adventures begin!

In wrapping up our exploration of Science Investigatory Project (SIP) topics, it’s clear that we’ve uncovered a treasure trove of possibilities. These topics are more than just words on a page; they’re gateways to adventure, inquiry, and understanding.

We’ve ventured into diverse realms of science, from the secrets of plant life to the hidden chemistry of everyday items. We’ve danced with the laws of physics, delved into environmental enigmas, and probed the complexities of human behavior. These topics aren’t just ideas; they’re invitations to explore the wonders of our world.

So, as you consider your own SIP journey, let your curiosity be your compass. Pick a topic that truly intrigues you, one that keeps you awake at night with questions. Embrace the process – the experiments, the surprises, and the “Aha!” moments.

Remember, it’s not just about reaching a conclusion; it’s about the exhilarating path you take to get there. SIPs are your chance to be a scientist, an explorer, and a storyteller all at once. So, go ahead, choose your topic, embark on your adventure, and share your discoveries with the world. Science is waiting for your curiosity to light the way!

Frequently Asked Questions

1. how long does it typically take to complete a science investigatory project, the duration of an sip varies, but it generally spans a few months to a year, depending on the complexity of the topic and available resources., 2. can i work on an sip alone, or is it better to collaborate with classmates, you can choose to work on an sip individually or in a group. both approaches have their advantages, so it depends on your preference and the project’s requirements., 3. are there any age restrictions for participating in sips, sips are typically undertaken by students in middle school and high school, but there are no strict age restrictions. anyone with a passion for scientific inquiry can engage in an sip., 4. how can i find a mentor or advisor for my sip, you can seek guidance from science teachers, professors, or professionals in your chosen field. they can provide valuable insights and support throughout your sip journey., 5. where can i showcase my sip findings, you can present your sip findings at science fairs, school exhibitions, or even submit them to relevant scientific journals or conferences for broader recognition..

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23+ Science Investigatory Project Topics for Curious Minds

Science investigatory projects are a great way for students to explore various scientific concepts and principles in a fun and engaging way. These projects allow students to apply their knowledge of scientific methods, research skills, and creativity to solve real-world problems.

If you’re looking for science investigatory project topics, you’ve come to the right place. In this blog post, we’ll explore what science investigatory projects are, their significance, and the elements that make up a successful project. We’ll also provide a list of 23+ exciting science investigatory project topics that will surely ignite your curiosity and imagination. Also, we will discuss how you can find the right topic for your Science Investigatory Project.

What is the Science Investigatory Project?

Table of Contents

A Science Investigatory Project (SIP) is a research-based project that allows students to apply scientific methods to investigate a problem or question of interest. It is an opportunity for students to explore their curiosity and creativity while developing important skills such as critical thinking, problem-solving, and communication.

SIPs are typically done by students in high school or college, but they can also be done by younger students under the guidance of a teacher or mentor. These projects can cover a wide range of topics in various fields of science such as biology, chemistry, physics, environmental science, and more.

Significance of Science Investigatory Project

science investigatory project (SIP) is a research project that allows students to explore scientific topics of their choice through hands-on experimentation and analysis. SIPs are often conducted by students in high school or college, and they provide a unique opportunity to develop critical thinking and problem-solving skills while also exploring areas of interest. Here are some of the significant benefits of conducting a science investigatory project:

1. Develops research skills

SIPs help students develop research skills, including gathering and analyzing data, identifying relevant sources, and synthesizing information. These skills are essential for success in college and beyond.

2. Promotes scientific inquiry

SIPs encourage students to ask questions, generate hypotheses, and design experiments to test their ideas. This process promotes scientific inquiry and helps students understand the scientific method.

3. Encourages creativity

SIPs provide students with the opportunity to think creatively and come up with innovative solutions to problems. This encourages creativity and helps students develop new ways of looking at the world.

4. Enhances problem-solving skills

SIPs require students to identify problems and design solutions to address them. This process helps students develop problem-solving skills that are valuable in many fields.

5. Fosters independent learning

SIPs encourage students to take ownership of their learning and work independently. This helps students develop self-directed learning skills that are essential for success in college and beyond.

6. Prepares for college and career

SIPs help students develop skills that are essential for success in college and in many careers, including research, critical thinking, problem-solving, and communication.

7. Contributes to scientific knowledge

SIPs can contribute to the scientific knowledge base by generating new data and insights into scientific topics. This can have a significant impact on the field and can inspire future research.

Overall, science investigatory projects provide students with a unique opportunity to explore scientific topics of their choice and develop important skills that are valuable for success in many fields. By conducting a SIP, students can enhance their understanding of scientific concepts, develop critical thinking and problem-solving skills, and make meaningful contributions to scientific knowledge.

Here in this section, we will tell you the top 23+ science investigatory project topics for curious minds:

1. Investigating the effects of caffeine on plant growth

This project involves growing plants in different concentrations of caffeine and measuring their growth over time.

2. Investigating the effects of temperature on the rate of photosynthesis

This project involves measuring the rate of photosynthesis at different temperatures to determine the optimal temperature for plant growth.

3. Investigating the effects of different types of soil on plant growth

This project involves growing plants in different types of soil to determine which type of soil is best for plant growth.

4. Investigating the effects of music on plant growth

This project involves playing different types of music to plants and measuring their growth over time.

5. Investigating the effects of pH on enzyme activity

This project involves measuring the activity of enzymes at different pH levels to determine the optimal pH for enzyme activity.

6. Investigating the effects of different types of light on plant growth

This project involves growing plants under different types of light to determine which type of light is best for plant growth.

7. Investigating the effects of different types of fertilizer on plant growth

This project involves growing plants in different types of fertilizer to determine which type of fertilizer is best for plant growth.

8. Investigating the effects of water pollution on fish

This project involves exposing fish to different types of water pollutants and measuring their survival rate over time.

9. Investigating the effects of air pollution on plant growth

This project involves exposing plants to different types of air pollutants and measuring their growth over time.

10. Investigating the effects of different types of insulation on heat loss

This project involves measuring the rate of heat loss through different types of insulation to determine which type of insulation is most effective.

11. Investigating the effects of different types of packaging on food preservation

This project involves storing food in different types of packaging to determine which type of packaging is best for food preservation.

12. Investigating the effects of different types of cleaning products on bacteria growth

This project involves testing different types of cleaning products on bacteria growth to determine which product is most effective at killing bacteria.

13. Investigating the effects of different types of water filters on water quality

This project involves testing different types of water filters to determine which type is most effective at removing contaminants from water.

14. Investigating the effects of different types of antacids on stomach acid

This project involves testing different types of antacids on stomach acid to determine which type is most effective at neutralizing acid.

15. Investigating the effects of different types of sunscreen on UV radiation

This project involves testing different types of sunscreen to determine which type is most effective at blocking UV radiation.

16. Investigating the effects of different types of exercise on heart rate

This project involves measuring heart rate during different types of exercise to determine which type of exercise is most effective at increasing heart rate.

17. Investigating the effects of different types of food on blood sugar

This project involves testing the effects of different types of food on blood sugar levels to determine which type of food is best for managing blood sugar.

18. Investigating the effects of different types of disinfectants on bacteria growth

This project involves testing different types of disinfectants on bacteria growth to determine which disinfectant is most effective at killing bacteria.

19. Investigating the effects of different types of music on memory retention

This project involves testing the effects of different types of music on memory retention to determine which type of music is most effective at enhancing memory.

20. Investigating the effects of different types of cooking oils on cholesterol levels

This project involves testing the effects of different types of cooking oils on cholesterol levels to determine which type of oil is best for managing cholesterol.

21. Investigating the effects of different types of toothpaste on tooth decay

This project involves testing different types of toothpaste on tooth decay to determine which type is most effective at preventing tooth decay.

22. Investigating the effects of different types of preservatives on food spoilage

This project involves testing different types of preservatives on food spoilage to determine which type is most effective at preventing food spoilage.

23. Investigating the effects of different types of hand sanitizers on bacteria growth

This project involves testing different types of hand sanitizers on bacteria growth to determine which type is most effective at killing bacteria.

24. Investigating the effects of different types of music on plant growth

This project involves playing different types of music to plants and measuring their growth over time to determine which type of music is most effective at enhancing plant growth.

25. Investigating the effects of different types of exercise on muscle growth

This project involves measuring muscle growth during different types of exercise to determine which type of exercise is most effective at increasing muscle mass.

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Elements of Science Investigatory Project

A successful science investigatory project typically consists of several elements. These elements include:

1. Research question or problem statement

The project should have a clear research question or problem statement that the student is attempting to investigate.

2. Hypothesis

The project should have a clear hypothesis that the student is testing.

3. Experimental design

The project should have a clear experimental design that includes the materials and methods used to conduct the experiment.

4. Data collection and analysis

The project should include data collection and analysis methods that are appropriate for the experiment.

The project should include a clear presentation of the results of the experiment.

6. Conclusion

The project should have a clear conclusion that summarizes the findings of the experiment and discusses their significance.

How to Find Science Investigatory Project Topics

Finding the right science investigatory project topics can be challenging, but there are several ways to get started. Here are some tips for finding science investigatory project ideas:

1. Identify your interests

Start by identifying your interests in science. Do you have a particular area of science that you enjoy? What are some problems or questions in that field that you find interesting?

2. Research current events

Look for current events in science that are relevant to your interests. This can help you identify problems or questions that are currently being investigated.

3. Brainstorm with others

Talk to your friends, family, or classmates about their interests in science. Brainstorm together to come up with ideas for science investigatory projects.

4. Use online resources

There are many online resources that can help you find science investigatory project ideas. Check out science websites, blogs, and forums for ideas, or browse through science fair project databases to see what others have done in the past.

5. Consult with a teacher or mentor

If you’re still struggling to find an idea, consult with a science teacher or mentor. They can offer guidance and help you brainstorm ideas based on your interests and skill level.

How to Choose the Right Science Investigatory Project Topics

Choosing the right science investigatory project topics can make all the difference when it comes to the success of your project. Here are some tips to help you choose the right idea:

1. Choose a topic that interests you

Choose a topic that you find interesting and that you’re passionate about. This will make the project more enjoyable and motivate you to do your best.

2. Choose a topic that’s feasible

Choose a topic that’s realistic and feasible given your time, resources, and skill level. Avoid choosing a topic that’s too complex or requires expensive equipment or materials that you don’t have access to.

3. Choose a topic that’s relevant

Choose a topic that’s relevant to your community or society. This will make the project more meaningful and have a greater impact.

4. Choose a topic that’s original

Choose a topic that’s original and hasn’t been done before. This will make the project more interesting and unique.

5. Choose a topic that’s challenging

Choose a topic that’s challenging but still achievable. This will make the project more rewarding and help you develop new skills.

Significance of Choosing Science Investigatory Project Topics

Choosing the right science investigatory project topics is crucial to the success of your project. Here are some reasons why choosing the right idea is so important:

1. It determines the success of your project

Choosing the right idea can make all the difference when it comes to the success of your project. A well-chosen idea will make the project more enjoyable, more meaningful, and more likely to succeed.

2. It determines the level of engagement

Choosing the right idea will increase your level of engagement with the project. You’ll be more motivated to work on the project and more interested in the results.

3. It helps develop critical thinking skills

Choosing the right idea requires critical thinking and problem-solving skills. By choosing a challenging and original idea, you’ll develop new skills and improve existing ones.

4. It makes the project more relevant

Choosing a topic that’s relevant to your community or society will make the project more meaningful and have a greater impact.

5. It makes the project more interesting

Choosing a topic that’s interesting and unique will make the project more engaging and enjoyable.

This is the end of this post which is about science investigatory project topics. On the other hand, science investigatory projects are a great way to develop critical thinking and problem-solving skills while exploring topics that interest you. With the right idea and a solid plan, you can create a successful project that has a meaningful impact on your community or society.

By following the tips outlined in this post and exploring the 23+ science investigatory project topics provided, you’re sure to find an idea that sparks your curiosity and inspires you to explore the fascinating world of science. So, get your science on and start exploring the possibilities today!

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The Ultimate Science Fair Project Guide – From Start to Finish

When our daughter entered her first science fair, we kept seeing references to the Internet Public Library Science Fair Project Resource Guide . However, the IPL2 permanently closed… taking the guide with it. Bummer ! After now participating in over a half-dozen elementary school science fairs (including a first-place finish!), we created our own guide to help other students go from start to finish in their next science fair project. If this is your first science fair, have fun! If you’ve done it before, we hope this is your best one! Let’s science!

*Images from Unsplash

How to Use the STEMium Science Fair Project Ultimate Guide?

If you are just starting off and this is your first science fair, here’s how to get started:

Start with the STEMium Science Fair Project Roadmap . This is an infographic that “maps” out the process from start to finish and shows all the steps in a visual format.
Getting Started – Why Do a Science Fair Project . Besides walking through some reasons to do a project, we also share links to examples of national science fair competitions, what’s involved and examples of winning science fair experiments . *Note: this is where you’ll get excited!!
The Scientific Method – What is It and What’s Involved . One of the great things about a science fair project is that it introduces students to an essential process/concept known as the scientific method. This is simply the way in which we develop a hypothesis to test.
Start the Process – Find an Idea . You now have a general idea of what to expect at the science fair, examples of winning ideas, and know about the scientific method. You’re ready to get started on your own project. How do you come up with an idea for a science fair project? We have resources on how to use a Google tool , as well as some other strategies for finding an idea.
Experiment and Build the Project . Time to roll up those sleeves and put on your lab coat.
Other Resources for the Fair. Along the way, you will likely encounter challenges or get stuck. Don’t give up – it’s all part of the scientific process. Check out our STEMium Resources page for more links and resources from the web. We also have additional experiments like the germiest spot in school , or the alka-seltzer rocket project that our own kids used.

Getting Started – Why Do a Science Fair Project

For many students, participating in the science fair might be a choice that was made FOR you. In other words, something you must do as part of a class. Maybe your parents are making you do it. For others, maybe it sounded like a cool idea. Something fun to try. Whatever your motivation, there are a lot of great reasons to do a science fair project.

Challenge yourself
Learn more about science
Explore cool technology
Make something to help the world! (seriously!)
Win prizes (and sometimes even money)
Do something you can be proud of!

Many students will participate in a science fair at their school. But there are also national competitions that include 1000s of participants. There are also engineering fairs, maker events, and hackathons. It’s an exciting time to be a scientist!! The list below gives examples of national events.

Regeneron Science Talent Search
Regeneron International Science and Engineering Fair
Google Science Fair
Conrad Challenge
Microsoft Imagine Cup
JSHS Program
Exploravision

What’s the Scientific Method?

Before we jump into your project, it’s important to introduce a key concept: The Scientific Method . The scientific method is the framework scientists use to answer their questions and test their hypothesis. The figure below illustrates the steps you’ll take to get to the end, but it starts with asking a question (you’ve already finished the first step!).

scientific method - for the science fair

After we find a problem/idea to tackle, and dig into some background research, we create a guess on a potential solution. This is known as our hypothesis.

Example of a Hypothesis

My brother can hold his breath underwater longer than I can (“our problem”) –> how can I hold my breath longer? (“our question”) –> if I drink soda with caffeine before I hold my breath, I will be able to stay underwater longer (“our solution”). Our hypothesis is that using caffeine before we go underwater will increase the time we hold our breath. We’re not sure if that is a correct solution or not at this stage – just taking a guess.

Once we have a hypothesis, we design an experiment to TEST our hypothesis. First, we will change variables/conditions one at a time while keeping everything else the same, so we can compare the outcomes.

Experimental Design Example

Using our underwater example, maybe we will test different drinks and count how long I can hold my breath. Maybe we can also see if someone else can serve as a “control” – someone who holds their breath but does not drink caffeine. For the underwater experiment, we can time in seconds how long I hold my breath before I have a drink and then time it again after I have my caffeine drink. I can also time how long I stay underwater when I have a drink without caffeine.

Then, once we finish with our experiment, we analyze our data and develop a conclusion.

How many seconds did I stay underwater in the different situations?
Which outcome is greater? Did caffeine help me hold my breath longer?

Finally, (and most important), we present our findings. Imagine putting together a poster board with a chart showing the number of seconds I stayed underwater in the different conditions.

Hopefully you have a better sense of the scientific method. If you are completing a science fair project, sticking with these steps is super important. Just in case there is any lingering confusion, here are some resources for learning more about the scientific method:

Science Buddies – Steps of the Scientific Method
Ducksters – Learn About the Scientific Method
Biology4kids – Scientific Method
National Institute of Environmental Health Sciences – Scientific Method

What Science Fair Project Should I Do?

And science is no different.

Just know that if you can get through the idea part, the rest of the science fair is relatively smooth sailing. Remember to keep an open mind and a positive outlook . Each year 100s of 1000s of kids, teenagers and college students come up with new projects and ideas to test. You’ve got this!

What Makes a Great Science Fair Project? Start with a Problem To Solve

As we discuss below, good science experiments attempt to answer a QUESTION. Why is the sky blue? Why does my dog bark at her reflection? First, we will step through some ways to find TESTABLE QUESTIONS. These questions that you create will be what you work on for your science fair project. Pick something fun, something interesting and something that you are excited about. Not sure what that looks like? Step through some of the tips below for help.

Use the Google Science Fair Idea Generator

Are you surprised Google made a tool for science fair projects?? Our post called the low-stress way to find a science fair project gives a more in-depth overview about how to use it. It’s a great first stop if you’re early in the brainstorming process.

Answer your own questions

What type of music makes you run faster?
Can boys hold their breath underwater longer than girls?
How can I be sure the sandwich I bought is gluten free?
If we plant 100 trees in our neighborhood, will the air be cleaner?

Still stuck? Get inspiration from other science fair projects

Check out the Getting Started section and look at some of the winning science project ideas, our STEMium experiments and our Resource page. We’ve presented a ton of potential idea starters for you – take time to run through some of these, but our suggestion is to give yourself a deadline to pick an idea . Going through the lists could take you longer than you think, and in many cases sometimes it’s just better to pick something and go for it! The next section will take you through how to create testable questions for your project.

Starting Your Project: Find A Testable Question

The best experiments start with a question. Taking that a step further, the questions you useyou’re your science fair project should be ones that are TESTABLE. That means something you can measure. Let’s look at an example. Let’s say I’m super excited about baking. OH YEA!! I love baking. Specifically, baking cakes. In fact, I love baking cakes so much that I want to do a science project related to cakes. We’ve got two questions on cakes that we created. Which question below could be most useful for a science fair project:

1) Can eating cake before a test improve your score?

2) Why isn’t carrot cake more popular than chocolate cake?

The second question isn’t necessarily a bad question to pick. You could survey people and perhaps tackle the question that way. However, chances are you will get a lot of different answers and it will probably take a lot of surveys to start to pick up a trend.

Although, the first question might be a little easier. How would you test this? Maybe you pick one type of cake and one test that you give people. If you can get five people to take the test after eating cake and five people take the test with no cake, you can compare the test results. There might be other variables beyond cake that you could test (example: age, sex, education). But you can see that the first question is probably a little easier to test. The first question is also a little easier to come up with a hypothesis.

At this point, you’ve got an idea. That was the hard part! Now it’s time to think a little more about that idea and focus it into a scientific question that is testable and that you can create a hypothesis around .

What makes a question “testable”?

Testable questions are ones that can be measured and should focus on what you will change. In our first cake question, we would be changing whether or not people eat cake before a test. If we are giving them all the same test and in the same conditions, you could compare how they do on the test with and without cake. As you are creating your testable question, think about what you WILL CHANGE (cake) and what you are expecting to be different (test scores). Cause and effect. Check out this reference on testable questions for more details.

Outline Your Science Project – What Steps Should I Take?

Do Background Research / Create Hypothesis

Science experiments typically start with a question (example: Which cleaning solution eliminates more germs?). The questions might come up because of a problem. For example, maybe you’re an engineer and you are trying to design a new line of cars that can drive at least 50 mph faster. Your problem is that the car isn’t fast enough. After looking at what other people have tried to do to get the car to go faster, and thinking about what you can change, you try to find a solution or an answer. When we talk about the scientific method, the proposed answer is referred to as the HYPOTHESIS.

Science Buddies
National Geographic

The information you gather to answer these research questions can be used in your report or in your board. This will go in the BACKGROUND section. For resources that you find useful, make sure you note the web address where you found it, and save in a Google Doc for later.

Additional Research Tips

For your own science fair project, there will likely be rules that will already be set by the judges/teachers/school. Make sure you get familiar with the rules FOR YOUR FAIR and what needs to be completed to participate . Typically, you will have to do some research into your project, you’ll complete experiments, analyze data, make conclusions and then present the work in a written report and on a poster board. Make a checklist of all these “to do” items. Key things to address:

Question being answered – this is your testable question
Hypothesis – what did you come up with and why
Experimental design – how are you going to test your hypothesis
Conclusions – why did you reach these and what are some alternative explanations
What would you do next? Answering a testable question usually leads to asking more questions and judges will be interested in how you think about next steps.

Need more help? Check out these additional resources on how to tackle a science fair project:

Developing a Science Fair Project – Wiley
Successful Science Fair Projects – Washington University
Science Fair Planning Guide – Chattahoochee Elementary

Experiment – Time to Test That Hypothesis

Way to go! You’ve found a problem and identified a testable question. You’ve done background research and even created a hypothesis. It’s time to put it all together now and start designing your experiment. Two experiments we have outlined in detail – germiest spot in school and alka-seltzer rockets – help show how to set up experiments to test variable changes.

The folks at ThoughtCo have a great overview on the different types of variables – independent, dependent and controls. You need to identify which ones are relevant to your own experiment and then test to see how changes in the independent variable impacts the dependent variable . Sounds hard? Nope. Let’s look at an example. Let’s say our hypothesis is that cold weather will let you flip a coin with more heads than tails. The independent variable is the temperature. The dependent variable is the number of heads or tails that show up. Our experiment could involve flipping a coin fifty times in different temperatures (outside, in a sauna, in room temperature) and seeing how many heads/tails we get.

One other important point – write down all the steps you take and the materials you use!! This will be in your final report and project board. Example – for our coin flipping experiment, we will have a coin (or more than one), a thermometer to keep track of the temperature in our environment. Take pictures of the flipping too!

Analyze Results – Make Conclusions

Analyzing means adding up our results and putting them into pretty pictures. Use charts and graphs whenever you can. In our last coin flipping example, you’d want to include bar charts of the number of heads and tails at different temperatures. If you’re doing some other type of experiment, take pictures during the different steps to document everything.

This is the fun part…. Now we get to see if we answered our question! Did the weather affect the coin flipping? Did eating cake help us do better on our test?? So exciting! Look through what the data tells you and try to answer your question. Your hypothesis may / may not be correct. It’s not important either way – the most important part is what you learned and the process. Check out these references for more help:

How to make a chart or graph in Google Sheets
How to make a chart in Excel

Presentation Time – Set Up Your Board, Practice Your Talk

Personally, the presentation is my favorite part! First, you get to show off all your hard work and look back at everything you did! Additionally, science fair rules should outline the specific sections that need to be in the report, and in the poster board – so, be like Emmett from Lego Movie and read the instructions. Here’s a loose overview of what you should include:

Title – what is it called.
Introduction / background – here’s why you’re doing it and helping the judges learn a bit about your project.
Materials/Methods – what you used and the steps in your experiment. This is so someone else could repeat your experiment.
Results – what was the outcome? How many heads/tails? Include pictures and graphs.
Conclusions – was your hypothesis correct? What else would you like to investigate now? What went right and what went wrong?
References – if you did research, where did you get your information from? What are your sources?

The written report will be very similar to the final presentation board. The board that you’ll prepare is usually a three-panel board set up like the picture shown below.

To prepare for the presentation, you and your partner should be able to talk about the following:

why you did the experiment
the hypothesis that was tested
the data results
the conclusions.

It’s totally OK to not know an answer. Just remember this is the fun part!

And that’s it! YOU DID IT!!

Science fair projects have been great opportunities for our kids to not only learn more about science, but to also be challenged and push themselves. Independent projects like these are usually a great learning opportunity. Has your child completed a science fair project that they are proud of? Include a pic in the comments – we love to share science!! Please also check out our STEMium Resources page for more science fair project tips and tricks .

STEMomma is a mother & former scientist/educator. She loves to find creative, fun ways to help engage kids in the STEM fields (science, technology, engineering and math). When she’s not busy in meetings or carpooling kids, she loves spending time with the family and dreaming up new experiments or games they can try in the backyard.

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25+ Best Science Research Ideas for High School Students

If you’re an ambitious high school student looking for opportunities to build your college profile and learn new skills, consider undertaking a research project. You do not need to be sure about what you want to major in, but having a general idea aligned with your interests helps! Conducting research shows demonstrated interest in a subject, aids critical thinking and problem-solving, provides laboratory experience, and helps you gain analytical and communication skills.

What makes a good research idea?

There are a few key components you need to keep in mind when thinking about a research topic:

What is your project trying to achieve? For your research to be relevant, it needs to identify a knowledge gap and be significant. Your research findings should add to existing literature and help future researchers.

It is important to state what will be included in your research explicitly. Clearly defined boundaries help estimate a realistic timeline and allocate any necessary resources.

The easiest way to be dedicated throughout your research project is by choosing a topic you are passionate about! This will make sure you remain motivated throughout, and it will reflect in your work. Do not choose a topic for the sake of it — you will find the project difficult to complete and your disinterest will reflect in the quality of your work.

Feasibility:

You may have a grand idea for your research topic, but can you execute it? It’s important to consider any constraints you may have — time, money, etc. — and choose a topic that can be completed with your given resources. If you are working independently, choose a topic that isn't resource-intensive. For example, research that requires you use advanced telescopes to examine cosmological patterns may not be feasible if you do not already have access to one.

What do I do once I have a research idea?

Great job, you have found a topic that interests you, is relevant to the field, and is feasible in scope and resources! Next step, you need to find a mentor who can guide and advise you through the research process. They could be a working researcher, a college professor, a graduate student, or a Ph.D. candidate.

If you’re looking for a mentor, we’d recommend applying to the Lumiere Research Scholar Program which connects students with world-class researchers, offers one-on-one mentorship, and guides you through the research and writing process, even helping you get your paper published!

Chemistry research ideas for high school students:

Chemistry can be a great field to undertake independent research in — chemical reactions form the basis of life and can give you a deeper understanding of the world. Moreover, chemistry is directly related to important issues that affect us, like climate change, drug discovery, nanotechnology, and more. Research in these domains can lead to life-changing benefits for society!

Some topics you can research include:

1. Using green chemistry to achieve sustainability targets in the fields of energy, water remediation, agriculture, and sensing

2. Analyzing different energy storage options and comparing and contrasting different technologies' chemistries, performance, lifetime, cost, geographic and resource constraints, and more

3. Investigating how startups and the private sector’s newest technologies are critical to the transition to a green future and how products are commercialized from lab to market

4. Understanding how material nano-structure can create specific properties and take advantage of "structure-property" understanding to engineer new materials

5. Determining the role small molecules play in imaging, labeling, target identification, inhibiting native protein functions, and facilitating foreign ones, especially in new techniques used to understand disease pathways

6. Investigating how molecules are made in nature, such as the reactions performed by enzymes to make natural products

Suggested by Lumiere PhD mentors at Harvard University, University of California, Berkeley, Yale University, University of Cambridge, Technical University of Munich, Georgia Institute of Technology, Duke University, University of Leeds, Cornell University, and John Hopkins University

Biology research ideas for high school students:

Research in biology can contribute to humans’ understanding of living organisms, lead to medical breakthroughs and advancements in healthcare, contribute to cancer research and treatment, deepen our understanding of genetics, improve sustainability by helping develop biofuels and biodegradable materials, and more.

7. Tumor progression and how cancer cells invade and interact with other cells

8. Cancer immunotherapy: the study of how cancer cells evade the immune system and how we can harness the immune system to battle cancer

9. Researching past and current technologies used in gene editing. Identify challenges and weigh the ethical and social implications of these technologies

10. Identifying technical challenges in mass vaccination campaigns. Review existing data from public health organizations and current scientific literature on new vaccine delivery technologies

11. Analyzing the effects of alcohol and drug addiction on the brain

12. Discovering different theories of learning and memory. You can design and use different clinical studies here

Suggested by Lumiere Ph.D. mentors at Stanford University, UC Berkeley, Cornell University, Duke University, and Yale University

Physics research ideas for high school students:

Have space, quantum physics, nuclear science, and other such subjects always fascinated you? If so, a research project in physics is a great way to dig deeper and understand why different phenomena occur. Physics is a broad and interconnected discipline; research in the subject can cover topics like mechanical and electrical engineering, quantum computing, nuclear energy, astrophysical and cosmological phenomena, and computational technologies.

13. The features and limitations of augmented and virtual reality technologies, current industry standards of performance, and solutions to address challenges

14. Cosmological mysteries (like dark energy, inflation, and dark matter) and their hypothesized explanations

15. Physical processes that shape galaxies through cosmic time in the context of extragalactic astronomy and the current issues and frontiers in galaxy evolution

16. Radiation or radiation measurement in applications of nuclear physics (such as reactors, nuclear batteries, and sensors/detectors)

17. The electrical and thermodynamic properties of Boson particles, whose quantum nature is responsible for laser radiation

18. Mathematical derivation of the dynamics of particles from fundamental laws (such as special relativity, general relativity, and quantum mechanics)

19. The theoretical and experimental advances in quantum computing. Explore current high-impact research directions for quantum computing from a hardware or theoretical perspective

20. Nuclear fission or nuclear fusion energy as a possible solution to mitigate climate change

Suggested by Lumiere Ph.D. mentors at Northwestern University, Princeton University, Stanford University, Cornell University, University of Cambridge, Harvard University, University of California, Irvine, and University of Southampton.

Marine biology research ideas for high school students:

Contributing to research in marine biology can be extremely important given the diversity of marine ecosystems, the life they support, and their importance in combating climate change and preventing extreme weather events. Understanding how oceans work directly relates to water pollution and the quality of seafood, contributes to coastal protection and carbon sequestration (the process of capturing and storing excess carbon dioxide), and helps educate the public on the importance of protecting marine habitats.

If this interests you, here are some research topics to consider:

21. Examine how corals are responding to climate change, how the change in oceanic temperatures affects their reef-building capabilities, and the knock-on effects

22. Examine how marine conservation and tourism can go coexist. Suggest ways to ensure the sustainable development of coastal economies

23. Study how marine pollution impacts coastal areas, marine biodiversity, and communities’ livelihoods

24. Study how human activity (like pollution, fishing, and habitat destruction) has impacted marine genomes and how other anthropogenic factors have influenced adaptation and genetic diversity in marine organisms

25. Study the effect of plastic pollution on marine life and examine the benefits of adopting more eco-friendly and biodegradable packaging materials. Develop new methods to remove plastic from the ocean

26. Study carbon sequestration. Investigate how coastal ecosystems like mangroves, saltmarshes, seagrasses, etc. can help mitigate C02 emissions

27. Study the effect of plastic pollution on marine life and examine the benefits of adopting more eco-friendly and biodegradable packaging materials. Develop new methods to remove plastic from the ocean

If you’re serious about conducting independent research, you may want to consider the Lumiere Research Scholar Program , a selective online high school program for students founded by researchers at Harvard and Oxford. Last year, we had over 4000 students apply for 500 spots in the program! You can find the application form here . You can also reach out to us at [email protected] to know more, or to have a chat about possible collaborations!

Also check out the Lumiere Research Inclusion Foundation , a non-profit research program for talented, low-income students. Last year, we had 150 students on full need-based financial aid!

Kieran Lobo is a freelance writer from India, who currently teaches English in Spain.

research ideas

Such research can even touch on addiction studies, relevant to organizations like the Canadian Centre for Addiction

100+ Science Fair Project Ideas for Grades 2nd-8th

Even though science is meant to be exploratory and exciting, there is something about being judged at a science fair that strikes fear into the heart of students and parents alike.

Suddenly, what you do in science is *graded,* which means you can fail science?

Of course there is no such thing as a failed science experiment, but if your students or children are participating in a science fair this year, you’ll find this list of creative and easy science fair project ideas will help eliminate much of the stress surrounding science fair planning.

Over 100 science fair projects ideas for elementary through middle school! Kids in 2nd-8th grade will love these easy science fair projects.

Easy and Fun Science Fair Project Ideas that Kids will Adore!

You don’t have to stress about attending the school science fair! These science fair project ideas will be adored by kids from age 7 through age 14.

Keep reading to learn more about science projects and how to ensure students are maximizing their science project potential.

What is a Science Fair Project?

A science fair is a longstanding tradition that many elementary, middle, and high schools have where students conduct scientific research and share their presentations before judging.

A science fair project should include all of the following elements before entering a science fair:

Background research
Bibliography and source list
A question to answer and a hypothesis to test
Experiment variables
Data recording and analysis of the experiment
Conclusion report
Visual presentation

If your science fair project includes all of these elements, you are well on your way toward a winning science fair project idea!

What Do Kids Learn Doing Science Fairs?

Kids who do science projects report greater confidence and understanding of all scientific concepts, both in what they explored and the scientific process in general.

Learning to analyze and explore data helps children approach other tasks in a logical, straightforward process which helps improve study skills and communication skills.

One of the greatest values that science fair projects bring is the ability to identify problems and work toward a solution. That is an invaluable skill that kids can use throughout life.

Of course, kids learn the basics of whatever scientific concept they are learning, plus the scientific method, which involved:

Analyzing and Recording Data

But more than that, kids also learn other valuable skills like:

Presenting an idea
Creating a presentation
Organizing data
Analyzing data
Patience and orderliness
Working with others
Precision and care
Adapting to changes
Communication skills

These skills are important far beyond the classroom!

What You Need for a Science Fair

You’ll want to have these supplies on hand before doing your science fair project. Shop the included Amazon storefronts to make things easier and don’t forget to download the free science fair planning checklist before getting started!

Science Fair Project Planning

When you’re planning your project, you want to keep everything organized. Click the image below to get my free science fair project checklist so you can start organizing your project from the start.

You may also want to check out this list of science fair project research supplies.

Supplies for a Science Fair Project

There are so many supplies for science fair projects that are individual to each project, but if you want a general list of possible supplies and inspiration for your project, check out my selection of science fair experiment supplies on Amazon.

Supplies for a Science Fair Presentation

Your science fair presentation is important! It should look presentable and eye-catching. Check out this list of my favorite science fair presentation supplies.

Print a lot of papers? Get $10 your HP Instant Ink order when you use this link.

The Ultimate List of Easy Science Fair Project Ideas

These science fair project ideas are easy for kids of all ages and will provide a lot of value and interest at the school science fair.

We have science fair projects included by topic and by grade level so you can pick the right sort of projects for your class or child.

Science Fair Topics

Sometimes kids want to start with a topic and choose a science fair project from there! Here is a collection of fun science projects that include a variety of topics from colors to mold.

Here are some fun science projects for kids at home that would make a good addition to any science fair.

Of course every kid should try some of these classic science fair projects .

Now some schools are having STEM fairs in addition to or instead of science fairs, so these slime STEM fair projects would be perfect.

These slime science projects will capture the attention of any slime lover.

Try these science fair projects with LEGOs with kids who can’t get enough of LEGO.

Fun and tasty candy science fair projects will help even science haters enjoy the science fair.

Want more color in your science fair? Try these science experiments with food coloring !

Learn about the heart with these heart science projects .

Some kids can’t sit still, and these science fair projects for active kids are for them!

What kid wouldn’t have tons of fun doing marshmallow science fair projects ?

Children will love the variety of choices in this list of crystal science fair projects .

More Science Fair Experiment Ideas

You will love these other science experiment ideas!

100 Science Experiments for Kids that Use Materials You Already Own!

20 Fun Science Experiments with LEGOs

25 Rainbow Science Experiments with Bright and Beautiful Colors

Science Fair Projects by Grade

Age-appropriate activities are a must for keeping children interested in science fairs. Take a look at the resources I’ve collected below that show science fair projects that are suitable for elementary kids and middle school kids!

Take a look at the resources I've collected below that show science fair projects that are suitable for every grade from preschool through 8th grade!

If you are part of an elementary science fair, these elementary science fair project ideas will blow away the competition!

If you want to get seasonal, check out these Easter science projects for middle school.

Share this project with a friend!

Science Fair Project Ideas

Ph.D., Biomedical Sciences, University of Tennessee at Knoxville
B.A., Physics and Mathematics, Hastings College

Science fair is an opportunity for students of all ages to ask big questions, conduct meaningful research, and make exciting discoveries. Browse hundreds of science fair project ideas to find the ideal project according to grade level.

Preschool Science Project Ideas

Preschool is not too early to introduce children to science! Most preschool science ideas aim to interest kids in exploring and asking questions about the world around them.

Play with silly putty and examine its properties.
Look at flowers. How many petals does each flower have? What parts do flowers share in common?
Blow up balloons. What happens when you release an open balloon? What happens when you rub a balloon on your hair?
Explore color with fingerpaints.
Blow bubbles and look at how bubbles interact with each other.
Make a telephone with cups or cans and some string.
Have preschoolers categorize objects into groups. Discuss similarities and differences between objects.

Grade School Science Project Ideas

Students are introduced to the scientific method in grade school and learn how to propose a hypothesis . Grade school science projects tend to be quick to complete and should be fun for the student and the teacher or parent. Examples of suitable project ideas include:

Determine whether insects are attracted to lights at night because of their heat or their light.
Does the type of liquid (e.g., water, milk, cola) affect seed germination?
Does the power setting of the microwave affect how many unpopped kernels are in popcorn?
What happens if you pour a liquid other than water through a pitcher-type water filter?
What type of bubble gum produces the biggest bubbles?

Middle School Science Fair Ideas

Middle school is where kids can truly shine at the science fair! Kids should try to come up with their own project ideas, based on topics that interest them. Parents and teachers may still need to help with posters and presentations, but middle school students should have control of the project. Examples of middle school science fair ideas include:

Examine food labels. How does the nutritional data for different brands of the same food (e.g., microwave popcorn) compare?
Is laundry detergent effective if you use less than the recommended amount?
How permanent are permanent markers? Are there chemicals that will remove the ink?
Can a saturated solution of salt still dissolve sugar?
Do green bags really preserve food longer?
Are goldfish water chemicals really necessary?
What shape of ice cube melts the slowest?

High School Science Fair Ideas

High school science fair projects can be about more than a grade . Winning a high school science fair can net some nice cash prizes, scholarships, and college/career opportunities. While it's fine for an elementary or middle school project to take hours or a weekend to complete, most high school projects run longer. High school projects typically identify and solve problems, offer new models, or describe inventions. Here are some sample project ideas:

Which natural mosquito repellents are most effective?
Which home hair color holds its color through the most washings?
Do people who play car racing video games have more speeding tickets?
Which high school sport is associated with the most injuries?
What percentage of left-handed people use a computer mouse with their left hand?
What season is worst for allergies and why?

College Science Fair Ideas

Just as a good high school idea can pave the way for cash and college education, a good college project can open the door to graduate school and gainful employment. A college project is a professional-level project that shows you understand how to apply the scientific method to model a phenomenon or answer a significant question. The big focus on these projects is on originality, so while you might build on a project idea, don't just use one someone else has already done. It's fine to use an old project and come up with a new approach or different way of asking the question. Here are some starting points for your research:

What plants can detoxify gray water flowing from a home?
How could the timing of a traffic light be changed to improve intersection safety.
Which home appliances use the most power? How could that energy be conserved?

This content is provided in partnership with National 4-H Council. 4-H science programs provide youth the opportunity to learn about STEM through fun, hands-on activities and projects. Learn more by visiting their website.

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Engage elementary and middle school students with a research based science fair project! 10 engaging ideas for your science fair or investigative report.

Science Project Research: 10 Engaging Ideas for your Fair!

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Looking for a research science project? In this blog post, we will explore the world of research based science fair projects specifically tailored for elementary and middle school students.

Science fairs are an exciting way for young minds to delve into the world of scientific discovery, exploration, and creativity. They offer students a unique opportunity to apply critical thinking and research skills, while also having fun. The best science fair projects are often research-based, allowing students to investigate questions and hypotheses, collect data, and draw meaningful conclusions.

The Importance of a Science Project based in Research

Before we delve into project ideas, let’s first understand why a research-based science project is so valuable for young scientists:

Critical Thinking Skills : Research projects require students to think critically, formulate hypotheses, and design experiments. These skills are essential for future academic success.
Inquiry-Based Learning : Research projects encourage students to ask questions and seek answers, fostering a sense of curiosity and lifelong learning.
Real-World Application : Research-based projects connect classroom learning to real-world issues, helping students understand the relevance of science in their lives.
Data Collection and Analysis : Students learn the importance of collecting and analyzing data, which are skills that can be applied in various subjects and professions.
Communication Skills : Presenting research findings at a science fair hones communication skills, allowing students to articulate their thoughts and ideas clearly.

Research Science Project Ideas

Now, let’s explore some exciting and age-appropriate research-based science fair project ideas for elementary and middle school students:

1. The Effects of Light on Plant Growth :

Explore how different types of light (natural sunlight, LED, incandescent) affect the growth of plants. Students can set up an experiment with identical plants and varying light sources to measure growth over time.

2. Science Project, Research The Magic of Static Electricity :

Investigate the phenomenon of static electricity by rubbing balloons against different materials and studying how they attract or repel each other. What factors influence static electricity?

3. The Water Cycle in a Bag :

Create a mini water cycle model in a sealed plastic bag. Observe how water evaporates, condenses, and precipitates, mimicking the natural water cycle process.

4. Does Music Affect Plant Growth? :

Explore whether different genres of music can influence plant growth. Set up a controlled experiment with identical plants and varying types of music to see if they grow at different rates.

5. Science Project, Research The Science of Slime :

Unleash the fascination of chemistry by experimenting with homemade slime. Investigate how changing the proportions of ingredients like glue, borax, and water affect the consistency and texture of the slime.

6. Popsicle Bridge Strength :

Build bridges using popsicle sticks and test their strength by gradually adding weight to the bridge until it collapses. What design features make a bridge more durable?

7. What Melts Ice the Fastest? :

Examine different substances like salt, sand, and sugar to determine which one melts ice most rapidly. This project helps students understand the science behind ice removal in cold climates.

8. Paper Airplane Aerodynamics :

Investigate the principles of aerodynamics by designing different paper airplanes and testing their flight characteristics. What factors influence the distance a paper airplane can travel?

9. Science Project, Research The Five-Second Rule :

Study the validity of the “five-second rule” – the belief that dropped food is safe to eat if picked up within five seconds. What bacteria are present on different surfaces, and how quickly do they transfer to food?

10. The Mystery of Mold Growth :

Examine how different variables, such as temperature and humidity, affect the growth of mold on slices of bread. Students can also research the health implications of mold.

Science Project Research Process

To ensure the success of your research based science project, it’s important to guide students through the research process:

Ask a Question : Encourage students to start with a question or a hypothesis.
Background Research : Provide resources for students to learn more about the topic. Books, websites, and visits to the library can be helpful.
Experimental Design : Assist students in designing controlled experiments, ensuring they have a control group for comparison.
Data Collection : Teach students how to collect data accurately using tables, charts, and measurements.
Data Analysis : Help students analyze their data and draw meaningful conclusions.
Presentation : Guide students in creating a visually appealing and informative display board for the science fair.

Science Project Research Conclusion

Research-based science fair projects are an excellent way for elementary and middle school students to engage with the scientific method and develop essential life skills. By exploring topics that spark their curiosity and following a structured research process, young scientists can experience the thrill of discovery and the satisfaction of presenting their findings to peers and mentors.

These projects not only prepare students for future academic pursuits but also foster a love for science and the belief that they, too, can contribute to our collective understanding of the world. So, let’s continue to nurture the curiosity of our budding scientists and inspire them to explore the wonders of the natural world through research-based science fair projects.

Related: – Science Fair Project Ideas: 50 Fascinating Ideas! – Project Based Learning Activities: 50 Engaging Ideas! – Scientific Investigation Project Ideas: 10 Projects to Inspire

Ashley helps parents who want to homeschool find the resources they need to successfully teach their children. Ashley is a former teacher, current homeschooler, published author, and designer behind Circle Time with Miss Fox printables as well as the creator of this website, The Homeschool Resource Room.

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80+ Science Research Paper Topics Ideas For Students

Essay writing or writing dissertation is an integral part of education at any level, middle school, high school, or college. Some of the most common essays are on science research topics, and they are also quite interesting. However, choosing research paper topics isn’t as straightforward as you’d like. You’ll need to carry out a survey on and draw inspiration from several scientific research topics before finally choosing one. Choosing science topics, especially if they are argumentative essay topics , to write about can be a frustrating task, especially when science is a pretty wide subject. If you need inspiration on interesting science topics, we’ll give you some science research paper ideas. But, first, let’s talk about how to choose the best science research paper topics – it makes things easier.

What Are Some Science Topics You Can Write About?

Interesting science research topics, ideas of science research topics for high school students, science research topics for college students, science research topics for middle school, scientific research question examples, science presentation ideas, cool science topics to research, ideas of scientific topics for research on nanotechnology, fascinating ideas for science research projects, interesting science topics for high school research papers, tips for choosing science research topics.

Being a very broad subject, students often find choosing a science topic for a research paper difficult. However, the secret is knowing what scientific research questions will make for a good paper, and what people will want to read. So, when choosing science topics for papers, here are tips you can follow to make the task easier.

Choose cool science topics you’re interested in and that’ll interest your readers.
Search online for research question examples science for ideas on what your paper should be about.
Avoid choosing too-broad research topics for high school, to ensure your work is well detailed.
Consider contemporary scientific research questions concerning recent happenings; they can be fun to write
Read your notes and online academic papers for inspiration on good science research paper topics.
Choose simple but highly informative research topics for high school students.
Choose good science topics you have some knowledge of and can confidently talk about.
Learn how to choose science topics for high school to make things easier.
Be familiar with the dos and don’ts of choosing scientific research paper topics.
Choose a scientific topic for research papers that has enough accessible information.

The Dos and Don’ts of Choosing Science Topics

Knowing the dos and don’ts of choosing a science title helps you select a good topic and ultimately write an outstanding paper. So, when searching for science topics for presentations,

Do understand that there are different topics in science you can research on;
Do read extensively for science research paper ideas; it helps you know what to write about;
Don’t include words like “Research of” or “Study of” in your chosen science topics to research;
Don’t choose high school science research paper topics with scanty or inaccessible information available;
Do check online for interesting science research ideas on how to write your paper;
Feel free to ask your instructor, colleagues, or seniors for scientific research ideas.

When searching for interesting science topics or social media research topics related to science to writing on, you will find different ones on different subjects, which can be confusing. You can follow the tips we listed for choosing science-related topics for a research paper. Meanwhile, here are some science paper topics you can use if none is forthcoming.

Is there a move for the Covid-19 vaccine?
What “flattening the curve” means
Molecular evidence of humans interbreeding with Neanderthals
Impact of cardio exercise on heart health
The importance of exploring the solar system
Can a comet strike the earth?
The Hubble Space Telescope
Top ten chemistry careers
Acid rain effect aquatic plants’ growth
Room color and human behavior
How can plants grow in pots?
Water’s surface tension weight capacity
What does the paleo diet mean?
Is Pluto still a planet?
The future of commercial space flight
Do you inherit fingerprint patterns?
Ways in which handwashing prevents the spread of the Covid-19 virus
Molecular biological research on rare genetic disorders impact on understanding cancer
Do men pass on genetic abnormalities to their posterity as they age?
How can men’s exercise affect the traits they pass on to their children?
Is there really life on Mars; has there ever been?
Ways of solving the problem of junk space
The importance of Dark Matter
Black holes
Different ways to keep ice from defrosting
Are pet hairs harmful to the human body?
Some of the germs you’ve seen in your school
The effect of music on your assimilation ability
The types of food dogs prefer the best
Good hygienic practices for keeping clean
Foods that develop molds the fastest
How different body parts aid the effective functioning of the system
Do worms in the soil really affect plant growth and how?
Can light brightness make plants grow well?
What kinds of fertilizers work best, chemical or natural?
Can mice (or any animal of your choice) learn?
How can age affect the human reaction?
Why does water boil faster when put in salt?
Can food affect the heart, how?
Can background noise interfere with learning and assimilation?
Can Higgs Boson destroy the universe?
Effects of sunspots on man
Should humans live in space?
The most important technological innovations in medicinal chemistry in recent years
The danger of chemicals emitted from pharmaceutical companies
The importance of big data and bioinformatics to chemical research
The sugar chemistry behind making candy
Biomacromolecules
Trends in India’s medicinal chemistry research
Nuclear fusion
Reproduction in mammals
How do fish mate?
How useful are science museums in teaching science?
Why do birds have beautiful feathers?
The safety of offshore drilling
The importance of climate change legislation
Hydraulic fracking’s negative effects
Uses of microelectronics
Nanotechnology in medicine
Nanotechnology for cancer treatment
Can nanofibers repair brain injuries?
Effect of nanomedicine on human lifespan
Nanomaterial
How nanotechnology helps in patient diagnosis
How to reduce antibiotic use in agriculture
The ethics of stem cell research
The best leukemia treatment
Gene therapy
Causes of skin cancer
Colonoscopy testing on colon cancer
Why eliminating malaria is difficult
The possibility of predicting the next pandemic
Do childhood vaccines prevent diseases?
How cells shield the body against diseases
Should wild animals interact with humans?
Are self-driving cars good?
Regulating sugar use
Different types of headaches
Can migraine cause death?
The ideal weight for living long

Feel free to choose from this scientific research topics list for your science research paper. There are many things to research where science is concerned, including stem research topics , among others. There is no shortage of scientific topics to research and choosing the best one gets easy when you know how to. If you’ve chosen a topic and you need help writing on them, you can contact our professional writing service. We have a team of experts who can write on any science topic and ensure you meet your deadline.

Research Topics & Ideas: Data Science

50 Topic Ideas To Kickstart Your Research Project

Research topics and ideas about data science and big data analytics

If you’re just starting out exploring data science-related topics for your dissertation, thesis or research project, you’ve come to the right place. In this post, we’ll help kickstart your research by providing a hearty list of data science and analytics-related research ideas , including examples from recent studies.

PS – This is just the start…

We know it’s exciting to run through a list of research topics, but please keep in mind that this list is just a starting point . These topic ideas provided here are intentionally broad and generic , so keep in mind that you will need to develop them further. Nevertheless, they should inspire some ideas for your project.

To develop a suitable research topic, you’ll need to identify a clear and convincing research gap , and a viable plan to fill that gap. If this sounds foreign to you, check out our free research topic webinar that explores how to find and refine a high-quality research topic, from scratch. Alternatively, consider our 1-on-1 coaching service .

Data Science-Related Research Topics

Developing machine learning models for real-time fraud detection in online transactions.
The use of big data analytics in predicting and managing urban traffic flow.
Investigating the effectiveness of data mining techniques in identifying early signs of mental health issues from social media usage.
The application of predictive analytics in personalizing cancer treatment plans.
Analyzing consumer behavior through big data to enhance retail marketing strategies.
The role of data science in optimizing renewable energy generation from wind farms.
Developing natural language processing algorithms for real-time news aggregation and summarization.
The application of big data in monitoring and predicting epidemic outbreaks.
Investigating the use of machine learning in automating credit scoring for microfinance.
The role of data analytics in improving patient care in telemedicine.
Developing AI-driven models for predictive maintenance in the manufacturing industry.
The use of big data analytics in enhancing cybersecurity threat intelligence.
Investigating the impact of sentiment analysis on brand reputation management.
The application of data science in optimizing logistics and supply chain operations.
Developing deep learning techniques for image recognition in medical diagnostics.
The role of big data in analyzing climate change impacts on agricultural productivity.
Investigating the use of data analytics in optimizing energy consumption in smart buildings.
The application of machine learning in detecting plagiarism in academic works.
Analyzing social media data for trends in political opinion and electoral predictions.
The role of big data in enhancing sports performance analytics.
Developing data-driven strategies for effective water resource management.
The use of big data in improving customer experience in the banking sector.
Investigating the application of data science in fraud detection in insurance claims.
The role of predictive analytics in financial market risk assessment.
Developing AI models for early detection of network vulnerabilities.

Data Science Research Ideas (Continued)

The application of big data in public transportation systems for route optimization.
Investigating the impact of big data analytics on e-commerce recommendation systems.
The use of data mining techniques in understanding consumer preferences in the entertainment industry.
Developing predictive models for real estate pricing and market trends.
The role of big data in tracking and managing environmental pollution.
Investigating the use of data analytics in improving airline operational efficiency.
The application of machine learning in optimizing pharmaceutical drug discovery.
Analyzing online customer reviews to inform product development in the tech industry.
The role of data science in crime prediction and prevention strategies.
Developing models for analyzing financial time series data for investment strategies.
The use of big data in assessing the impact of educational policies on student performance.
Investigating the effectiveness of data visualization techniques in business reporting.
The application of data analytics in human resource management and talent acquisition.
Developing algorithms for anomaly detection in network traffic data.
The role of machine learning in enhancing personalized online learning experiences.
Investigating the use of big data in urban planning and smart city development.
The application of predictive analytics in weather forecasting and disaster management.
Analyzing consumer data to drive innovations in the automotive industry.
The role of data science in optimizing content delivery networks for streaming services.
Developing machine learning models for automated text classification in legal documents.
The use of big data in tracking global supply chain disruptions.
Investigating the application of data analytics in personalized nutrition and fitness.
The role of big data in enhancing the accuracy of geological surveying for natural resource exploration.
Developing predictive models for customer churn in the telecommunications industry.
The application of data science in optimizing advertisement placement and reach.

Recent Data Science-Related Studies

While the ideas we’ve presented above are a decent starting point for finding a research topic, they are fairly generic and non-specific. So, it helps to look at actual studies in the data science and analytics space to see how this all comes together in practice.

Below, we’ve included a selection of recent studies to help refine your thinking. These are actual studies, so they can provide some useful insight as to what a research topic looks like in practice.

Data Science in Healthcare: COVID-19 and Beyond (Hulsen, 2022)
Auto-ML Web-application for Automated Machine Learning Algorithm Training and evaluation (Mukherjee & Rao, 2022)
Survey on Statistics and ML in Data Science and Effect in Businesses (Reddy et al., 2022)
Visualization in Data Science VDS @ KDD 2022 (Plant et al., 2022)
An Essay on How Data Science Can Strengthen Business (Santos, 2023)
A Deep study of Data science related problems, application and machine learning algorithms utilized in Data science (Ranjani et al., 2022)
You Teach WHAT in Your Data Science Course?!? (Posner & Kerby-Helm, 2022)
Statistical Analysis for the Traffic Police Activity: Nashville, Tennessee, USA (Tufail & Gul, 2022)
Data Management and Visual Information Processing in Financial Organization using Machine Learning (Balamurugan et al., 2022)
A Proposal of an Interactive Web Application Tool QuickViz: To Automate Exploratory Data Analysis (Pitroda, 2022)
Applications of Data Science in Respective Engineering Domains (Rasool & Chaudhary, 2022)
Jupyter Notebooks for Introducing Data Science to Novice Users (Fruchart et al., 2022)
Towards a Systematic Review of Data Science Programs: Themes, Courses, and Ethics (Nellore & Zimmer, 2022)
Application of data science and bioinformatics in healthcare technologies (Veeranki & Varshney, 2022)
TAPS Responsibility Matrix: A tool for responsible data science by design (Urovi et al., 2023)
Data Detectives: A Data Science Program for Middle Grade Learners (Thompson & Irgens, 2022)
MACHINE LEARNING FOR NON-MAJORS: A WHITE BOX APPROACH (Mike & Hazzan, 2022)
COMPONENTS OF DATA SCIENCE AND ITS APPLICATIONS (Paul et al., 2022)
Analysis on the Application of Data Science in Business Analytics (Wang, 2022)

As you can see, these research topics are a lot more focused than the generic topic ideas we presented earlier. So, for you to develop a high-quality research topic, you’ll need to get specific and laser-focused on a specific context with specific variables of interest. In the video below, we explore some other important things you’ll need to consider when crafting your research topic.

Get 1-On-1 Help

If you’re still unsure about how to find a quality research topic, check out our Research Topic Kickstarter service, which is the perfect starting point for developing a unique, well-justified research topic.

Research Topic Kickstarter - Need Help Finding A Research Topic?

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50 Exciting 4th Grade Science Projects and Experiments

Did you know you can make plastic from milk?

Collage of 4th grade science projects, including marble energy transfer and model seismometer

Nothing gets kids more excited for science than hands-on experiments! Watch your 4th grade science students’ eyes light up when they try some of these activities. You’ll find physics, biology, engineering, chemistry, and more. These projects are easy to set up and really help drive the learning home. Get ready for some science fun!

To help you find the right 4th grade science projects and activities, we’ve rated them all based on difficulty and materials:

Difficulty:

Easy: Low or no-prep experiments you can do pretty much any time
Medium: These take a little more setup or a longer time to complete
Advanced: Experiments like these take a fairly big commitment of time or effort
Basic: Simple items you probably already have around the house
Medium: Items that you might not already have but are easy to get your hands on
Advanced: These require specialized or more expensive supplies to complete

4th Grade Science Fair Projects

4th grade stem challenge science projects, 4th grade motion and energy science activities.

More 4th Grade Science Projects and Experiments

These 4th grade experiments also work well as science fair projects. Try changing up the variables to turn it into a real experiment, then form a hypothesis and find out what happens.

Blow unpoppable bubbles

Student's gloved hand holding a soap bubble next to a window (Fourth Grade Science)

Difficulty: Easy / Materials: Medium

A soap bubble you can hold in your hand? It’s true! A little glycerin makes the soap bubble layers stronger, so you can even toss them gently from person to person.

Learn more: Unpoppable Bubbles Experiment at Learning Resources

Grow crystal names

Crystalized pipe cleaner letters against a black background

No list of 4th grade science projects would be complete without crystals! Kids of all ages love growing crystals, making this an ideal way to learn about supersaturated solutions. The classic experiment gets a new twist when you have kids shape pipe cleaners into their own names first.

Learn more: Crystal Letters at Playdough to Plato

Grow bacteria in petri dishes

6 petri dishes growing a variety of molds and bacteria

Difficulty: Medium / Materials: Medium

Your students will truly feel like scientists when they perform this classic experiment. They’ll prep the dishes with agar, swab different surfaces, and see what bacteria they grow. It’s gross science, but it’s also easy and impressive.

Learn more: Growing Bacteria at Steve Spangler Science

See coastal erosion in action

Plastic bin filled with sand, shells, and water to simulate a beach, with a hand holding a plastic bottle in the water (Fourth Grade Science)

Here’s a cool experiment to include in your unit on oceans. Build a miniature coastline, then see how wave action erodes the shore.

Learn more: Erosion Experiment at Little Bins for Little Hands

Erupt a lemon volcano

Cut lemon in a blue bowl covered in colorful fizzy foam

Difficulty: Easy / Materials: Basic

Early chemistry experiments with acids and bases are always a lot of fun. This one uses the natural acids of lemon juice and adds a little food coloring to up the wow factor.

Learn more: Lemon Volcano at STEAM Powered Family

Sink and float to explore density

Series of glasses filled with liquid labeled baking soda water, sugar water, control plain water, and salt water, with red and blue objects floating in each

Adding items like salt or sugar to water changes its density, as does the temperature itself. Turn this into a 4th grade science fair project by experimenting with different solutions and forming hypotheses about the results.

Learn more: Salt Water Density at Science Kiddo

Discover a density rainbow

Difficulty: Medium / Materials: Basic

Colorful, simple, and impressive: It’s the trifecta of 4th grade science experiments! Wow your students by layering colored sugar water as you learn about density, adhesion, and cohesion.

Transform milk into plastic

Plastic seems incredibly modern, but people have been making casein plastic from milk for centuries. In this 4th grade science project, students experiment to create the formula for the best milk plastic. They’ll be amazed at the results!

Simulate an earthquake

Fourth grade science teacher's hand shaking a pan of Jello topped with a house model made of toothpicks and marshmallows

The ground under our feet may feel solid, but an earthquake changes that pretty quickly. Use Jell-O to simulate the Earth’s crust, then see if you can build an earthquake-proof structure for a practical and fascinating 4th grade science fair project.

Learn more: Earthquake Simulation at Teaching Science

Test Sharpie solubility

Coffee filters colored with marker, dipped into vinegar, rubbing alcohol, and water

Find out if Sharpie markers are really permanent with this 4th grade science project that uses the scientific method to explore solutes and solvents.

Learn more: Sharpie Solubility at Around the Kampfire

Find out if mood rings really work

Student's hand holding a blue mood ring in front of a thermometer

Apply the rigors of the scientific method to mood rings ! Find out what makes mood rings change color, then see if they really reflect a person’s mood.

Learn more: Mood Rings Validity Test at Education.com

Create a new plant or animal

Science project showing an imaginary plant called a Snap-a-Doodle

Kids will really get into this project, indulging their creativity as they invent a plant or animal that’s never been seen before. They’ll need to be able to explain the biology behind it all, though, making this an in-depth project you can tailor to any class.

Learn more: Create an Organism at I Love 2 Teach

Investigate decomposition

Plastic bag containing a plate of rotting food

Difficulty: Easy / Materials: Easy

Yup, it’s gross … so kids will love it! Seal food items in a plastic bag and experiment to see what factors affect their decomposition, helped along by a heaping dose of mold.

Learn more: Decomposition at Mystery Science

Assemble a lung model

With just a few supplies including balloons and a plastic bottle, you can make an impressive working model of human lungs. This makes a very cool 4th grade science fair project.

Explore the causes of tooth decay

They hear it from their parents all the time, but this experiment will prove to your students once and for all what can happen to their teeth when exposed to different drinks such as soda and milk. This is one of those classic 4th grade science fair projects every kid should try.

For students who love to tinker, STEM challenges can spark incredible 4th grade science fair projects. Here are some of our favorites for this age group.

Engineer a drinking-straw roller coaster

Student building a roller coaster of drinking straws for a ping pong ball (Fourth Grade Science)

STEM challenges are always a hit with kids. We love this one, which only requires basic supplies like drinking straws . ( Get more 4th grade STEM challenges here. )

Learn more: Drinking Straw Roller Coaster at Frugal Fun for Boys and Girls

Make a wigglebot

Wigglebot made of a plastic cup and markers

Who knew electricity could be so adorable? Explore the science behind batteries and motors by creating a simple “wigglebot.” Experiment with weights to throw the motor off balance and create fun designs.

Learn more: Wigglebot at Research Parent

Construct a working flashlight

Student using a flashlight made from a few supplies and an index card

You’ll only need a few supplies to guide your students in building their own LED flashlights. They’ll learn how electricity travels and the way circuits work. The slideshow available through the link makes this lesson a breeze for teachers too.

Learn more: DIY Flashlight at Mystery Science

Build a hovercraft

Inflated yellow balloon attached to a CD by a bottle cap

It’s not exactly the same model the military uses, but this simple hovercraft is a lot easier to build. An old CD and a balloon help demonstrate air pressure and friction in this fun 4th grade science experiment.

Learn more: DIY Hovercraft at Education.com

Create a smartphone projector

Cardboard box with a magnifying glass embedded in it, with a smart phone

No projector in your classroom yet? No problem! Have your students help you construct one for your smartphone using a cardboard box and large magnifying glass . They’ll learn about convex lenses and how the brain processes images too.

Learn more: DIY Smartphone Projector at The STEM Laboratory

Set up a pulley system

Pulley system made of cans and yarn mounted on a piece of cardboard

The science of machines never fails to fascinate kids. In this experiment, they’ll design their own pulley system to make it easier to lift an object.

Learn more: DIY Pulley at 123 Homeschool 4 Me

Design a working elevator

Engineering activities make for amazing hands-on learning. Challenge your 4th grade students to build an elevator that can safely lift a certain amount of weight.

Make a model seismometer

Paper cup suspended by strings, with a marker sticking out the bottom making lines on a strip of paper

Explore the science of seismology and learn how scientists study earthquakes and their effects. This model seismometer is easy to build and fun to experiment with.

Learn more: Model Seismometer at Science Sparks

Conduct an egg drop

Here’s one more classic to add to our list of 4th grade science experiments: the egg drop! The great thing about this project is that kids can do it at any age, with different materials and heights to mix it up. Hit the link below to get an egg drop project designed just for 4th graders.

Learn more: Egg Drop Challenge Ideas

Demonstrate Newton’s laws of motion with balloon rockets

Who doesn’t love balloon rockets?! Your students will have a blast(off) displaying Newton’s third law of motion while learning about physics.

Many 4th grade science standards include units on energy and motion. These energy science activities offer cool hands-on ways to spice up your classroom lessons.

Flick marbles to learn transfer of energy

Fourth grade science student flicking a marble along the ridge in a ruler

This experiment is a bit of a thinker: What will happen when one moving marble hits several stationary marbles sitting in a row? Flick the first marble and find out!

Learn more: Marble Energy Transfer at Frugal Fun for Boys and Girls

See energy transfer in action with sports balls

Place a tennis ball on top of a basketball and bounce them together to see how energy transfers from one object to another. This one is very easy, and kids will love seeing how high they can get the balls to bounce!

Go an on energy scavenger hunt

A printable energy scavenger hunt on bright green paper against a blue background

Emphasize the fact that energy is all around us in one form or another with this easy, free printable energy science activity. For a more advanced version, help students identify each kind of energy (kinetic, stored, heat, etc.) they find.

Learn more: Energy Scavenger Hunt at The Science Penguin

See a heat-powered windmill demonstrate convection

Heat rises, and its interaction with cooler air creates convection currents. Find out how we can put convection to work for us with this 4th grade science craft project.

Capture waves in a bottle

Plastic bottle with blue water and a toy ship inside

Here’s a quick and easy way to show wave action in a no-mess way. You don’t need to add a little ship to the bottle, but it does make it more fun!

Learn more: Waves in a Bottle at What I Have Learned Teaching

Assemble a wave machine

Turn this one into a class cooperative activity, or try it as a science fair project idea. Either way, it’s an incredibly fascinating way to demonstrate the energy science of waves.

Use a Slinky to demonstrate types of waves

A Slinky is more than just a toy—it’s also a terrific science manipulative! Use it to see waves in motion, both longitudinal and transverse.

Watch gravity beads prove Newton’s laws

Child holding a cup of blue bead strings, watching them flow out of the cup

You’ll need a loooooooong string of beads for this experiment. Make your own by taping dollar-store strings together, or buy a long bead garland . Pile them in a cup and get the beads going; it’s fascinating to watch inertia and gravity at work.

Learn more: Gravity Beads at Teach Beside Me

Spin marble tops to learn about inertia

Colorful marbles glued together in several pyramidal shapes

Glue together marbles in a variety of pyramidal patterns to form tops, then form hypotheses about which will spin best. Afterwards, kids will have fun new toys to play with!

Learn more: Marble Tops at KidsActivities.com

Visualize the second law of motion with soda cans

Newton’s second law, concerning acceleration, force, and mass, can be a little hard to understand. This easy 4th grade science demo makes it a little easier to visualize.

More 4th Grade Science Projects and Activities

Use these cool science experiments to encourage a love of science, at home or in the classroom!

Measure a magnet’s attraction force

Small magnet, paper clip, ruler, and instruction card

Fourth grade science students already know that magnets attract metal objects. In this experiment, they’ll measure to see how close a magnet needs to be to an object for the attraction to work. Mix things up with different sizes of magnets and objects of various weights.

Learn more: Magnet Measurements at Ashleigh’s Education Journey

See light refraction in action

$Student dipping a drawing into a glass of water, using light refraction to make the color disappear$

This seems more like a magic trick, but we promise it’s science! Make colors seem to appear and disappear, change numbers into letters, and more.

Learn more: Light Refraction at Ronyes Tech

“Draw” on water with dry-erase marker

This is another one of those mind-blowing science demos that kids will want to try over and over again. Draw on a shallow bowl or plate with dry-erase markers , then slowly add water. The marker (which is insoluble in water) will float to the top!

Paint with sunscreen

Sun painted onto a piece of black construction paper using sunscreen

Prove that sunscreen really does provide protection from harmful UV rays. Turn this into a full-blown experiment by trying different SPFs or comparing it to other creams or lotions without SPF.

Learn more: Paint With Sunscreen at Team Cartwright

Become human sundials

Fourth grade science students measuring their outlines drawn in sidewalk chalk on the playground

Choose a sunny day and grab some sidewalk chalk—your students are about to become sundials! They’ll practice measuring skills and learn about the movement of the sun across the sky.

Learn more: Human Sundial at Rhythms of Play

Mine for chocolate chips

Student's hand digging through a crumbled cookie to pull out chocolate chips

If you’re learning about mineral resources, this quick hands-on activity is an interesting way to explore the effects of mining. Kids have two minutes to find as many chocolate chips as they can in a cookie. Will they smash it up and destroy it entirely? Pick them out one by one? This experiment can lead to intriguing discussions.

Learn more: Mining for Chocolate Chips at Sarah’s STEM Stuff

Assemble an edible DNA model

Student holding a DNA model made from Twizzlers, colored marshmallows, and toothpicks

Use licorice sticks, four different-colored candies or fruits, and toothpicks to build an edible strand of DNA. Learn about chemical bonds and the helix shape, then eat your creation!

Learn more: Edible DNA Model at wikiHow

Layer an edible soil model

Clear cup layered with chocolate chip bedrock, pudding subsoil, crushed cookie topsoil, and coconut grass

Digging in the dirt is fun, but it’s even more fun when you can eat the dirt when you’re finished! Create edible soil-layer models, complete with gummy worms, for a simple earth science project. ( Find more edible science projects here. )

Learn more: Edible Soil Layers at Super Teacher Blog

Turn a penny green

Five pennies turned various shades of green

Experiment with simple chemical reactions as you turn pennies green using vinegar. (Don’t forget to tell students that the Statue of Liberty is green for this very same reason!)

Learn more: Penny Reactions at Buggy and Buddy

Use marshmallows to explore Boyle’s law

Fourth grade science students holding large syringes filled with colorful marshmallows

Seeing Boyle’s law (which relates pressure and volume of gasses) in action makes it a little easier to understand and remember. This simple 4th grade science experiment uses marshmallows to make a great visual.

Learn more: Boyle’s Law at Hojo’s Teaching Adventures

Form ocean currents

Glass pan full of blue and purple swirls of water, with ice cubes and plastic sea creatures

Learning about oceanography? Demonstrate how ocean currents form using warm and cold water (and a few plastic sea creatures for extra fun!).

Learn more: Ocean Currents at Life Over C’s

Understand the impact of non-renewable resources

Index cards with various pasta types glued to them, including rotini, rigatoni, and shells

This is a neat Earth Day activity . Discuss the differences between renewable and non-renewable resources, then have your class form “companies” to “mine” non-renewable resources. As they compete, they’ll see how quickly the resources are used. It’s a great tie-in to energy conservation discussions.

Learn more: Non-Renewable Resources at The Owl Teacher

Explore blood components

Glass jars full of corn syrup, red candy, and marshmallows

Use simple kitchen supplies to create a jar full of “blood” that includes plasma, platelets, red blood cells, and white blood cells. (You can even snack on the blood cells along the way!)

Learn more: Blood Model at Almost Supermom

Create cool colors with candy

Learn about diffusion in the sweetest way! Grab a bag of Skittles for this quick and easy 4th grade science project.

Wow them with glowing water

Three bottles of water, one clear, one glowing blow, and one glowing green

Your students will ooh and aah at the result of this exploratory way to show phosphors in action with a black light, different types of water, and a highlighter. The results of this experiment might surprise both you and your students!

Learn more: Glowing Water Experiment at Cool Science Experiments Headquarters

Keep the STEM excitement going with these 25 Fantastic Free 4th Grade Math Games .

Plus, sign up for our newsletters to get all the latest teaching tips and ideas, straight to your inbox..

Whether you need 4th grade science fair project ideas or are a teacher looking for engaging experiments for the classroom, find them here!

Four printout note cards for 4th Grade STEM Challenges

25 Fun and Easy Fourth Grade STEM Challenges (Free Printable!)

Hands-on fun that also helps them grow. Continue Reading

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Understanding Science

How science REALLY works...

Understanding Science 101
Misconceptions
Testing ideas with evidence from the natural world is at the core of science.
Scientific testing involves figuring out what we would expect to observe if an idea were correct and comparing that expectation to what we actually observe.
Scientific arguments are built from an idea and the evidence relevant to that idea.
Scientific arguments can be built in any order. Sometimes a scientific idea precedes any evidence relevant to it, and other times the evidence helps inspire the idea.

Misconception: Science proves ideas.

Misconception: Science can only disprove ideas.

Correction: Science neither proves nor disproves. It accepts or rejects ideas based on supporting and refuting evidence, but may revise those conclusions if warranted by new evidence or perspectives. Read more about it.

The core of science: Relating evidence and ideas

In this case, the term argument refers not to a disagreement between two people, but to an evidence-based line of reasoning — so scientific arguments are more like the closing argument in a court case (a logical description of what we think and why we think it) than they are like the fights you may have had with siblings. Scientific arguments involve three components: the idea (a hypothesis or theory), the expectations generated by that idea (frequently called predictions), and the actual observations relevant to those expectations (the evidence). These components are always related in the same logical way:

What would we expect to see if this idea were true (i.e., what is our expected observation)?
What do we actually observe?
Do our expectations match our observations?

PREDICTIONS OR EXPECTATIONS?

When scientists describe their arguments, they frequently talk about their expectations in terms of what a hypothesis or theory predicts: “If it were the case that smoking causes lung cancer, then we’d predict that countries with higher rates of smoking would have higher rates of lung cancer.” At first, it might seem confusing to talk about a prediction that doesn’t deal with the future, but that refers to something going on right now or that may have already happened. In fact, this is just another way of discussing the expectations that the hypothesis or theory generates. So when a scientist talks about the predicted rates of lung cancer, he or she really means something like “the rates that we’d expect to see if our hypothesis were correct.”

If the idea generates expectations that hold true (are actually observed), then the idea is more likely to be accurate. If the idea generates expectations that don’t hold true (are not observed), then we are less likely to accept the idea. For example, consider the idea that cells are the building blocks of life. If that idea were true, we’d expect to see cells in all kinds of living tissues observed under a microscope — that’s our expected observation. In fact, we do observe this (our actual observation), so evidence supports the idea that living things are built from cells.

Though the structure of this argument is consistent (hypothesis, then expectation, then actual observation), its pieces may be assembled in different orders. For example, the first observations of cells were made in the 1600s, but cell theory was not postulated until 200 years later — so in this case, the evidence actually helped inspire the idea. Whether the idea comes first or the evidence comes first, the logic relating them remains the same.

Here, we’ll explore scientific arguments and how to build them. You can investigate:

Putting the pieces together: The hard work of building arguments

Predicting the past
Arguments with legs to stand on

Or just click the Next button to dive right in!

Take a sidetrip
Teaching resources

Scientific arguments rely on testable ideas. To learn what makes an idea testable, review our Science Checklist .

Forming hypotheses — scientific explanations — can be difficult for students. It is often easier for students to generate an expectation (what they think will happen or what they expect to observe) based on prior experience than to formulate a potential explanation for that phenomena. You can help students go beyond expectations to generate real, explanatory hypotheses by providing sentence stems for them to fill in: “I expect to observe A because B.” Once students have filled in this sentence you can explain that B is a hypothesis and A is the expectation generated by that hypothesis.
You can help students learn to distinguish between hypotheses and the expectations generated by them by regularly asking students to analyze lecture material, text, or video. Students should try to figure out which aspects of the content were hypotheses and which were expectations.

Summing up the process

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Promoting innovation in food science: rita x cifst popular science storyboard competition.

Participants and winners of the RITA x CIFST Popular Science Storyboard competition.

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The competition drew submissions from across academic institutions, each offering a unique perspective on food science research topics. After rigorous evaluation by a distinguished panel of experts, three outstanding entries emerged victorious:

Romain Canuel from Université Laval for his infographic on cranberry juice’s organic acids
Ririka Saito & Omid Sadeghpour Marvi from McGill University for their schematic representation of whey’s transformation into lactobionic acid
Jinha Suh from McGill University for her visual demonstration of the value of sugarcane by-products as flocculants in a circular economy perspective

These talented individuals captured the essence of their research topics through visually engaging infographics, making novel and complex concepts accessible to a broader audience. We extend our heartfelt gratitude to the members of the jury. Their expertise ensured a fair evaluation process, contributing to the success of the competition. Read on to learn more about their career paths.

The culmination of the students’ efforts was presented at the CIFST's Supplier's Night on May 2 nd , an esteemed annual event for industry professionals. Among the many visitors, one infographic stood out. The People's Choice was awarded to Omid and Ririka thanks to their ability to resonate with audiences on a profound level.

In recognition of their exceptional contributions, the top three winners were rewarded with cash prizes totaling $1500. Additionally, Omid and Ririka, as recipients of the People's Choice Award, received a special gift basket and the opportunity for an exclusive company visit, allowing further relationships between students and potential employers.

View the storyboards

Houssine Fliss

Dana Nguyen

Romain Canuel

Ernesto Alonso Lagarda Clark

Ririka Saito & Omid Sadeghpour Marvi

Meet the Jury

Research & Development Project Manager, Nortera

“Sustainable development is essential to the long-term stability and growth of food production in Canada. I'm always excited by new ideas and developments in sustainable packaging, waste reduction, eco-efficiency and circular economy.”

Michel Pouliot

Scientific Director, Agropur

“We can't build the future in the future, we have to do it now and include all the dimensions of sustainable development in our daily work.”

Vincent Banville

Scientific Director, CDBQ

Dr Vincent Banville holds a PhD in Food Science from Laval University. He worked for several years as an industrial researcher in a very large company and developed strong leadership in the research and development project management. Now at CDBQ for nearly 5 years, he has developed an excellent knowledge of the innovation needs of small and large companies.

“Let's feed our planet one innovation at a time.”

Stéphanie Bernier

Research, Innovation and Sustainable Development Project Manager, Lassonde

“As one of North America's leading food and beverage companies, Lassonde is an environmentally responsible company. Reducing the environmental footprint of our packaging, reducing our greenhouse gas emissions, preserving water and reducing our residual materials are a priority. This creativity contest is an excellent initiative to promote these crucial issues in our current context.”

A fruitful collaboration

This celebration of innovation and communication wouldn't have been possible without the unwavering support of our collaborators, whose dedication to fostering scientific literacy and engagement is truly commendable.

We express our warmest thanks to the CIFST for their continued support of this initiative. The growing number of submissions demonstrates the student’s desire to engage with industry as well as apply and develop skills outside the classroom.

We also deeply appreciate the commitment of our industry partners, who generously donated a wide range of food products for the People’s Choice prize and offered visits of Nortera, Agropur and Lassonde processing plants to additional student participants. These represent invaluable experiences that allow the next generation to build relationships with future employers and better define their career goals and ambitions.

As the competition comes to an end, we hope to continue this successful initiative and look forward to a 3 rd edition in 2025!

Department and University Information

Consortium rita.

Faculty of Agricultural and Environmental Sciences
IFT - Institute of Food Technologists
Fondation Initia

'Painting with light' illuminates photo evidence of air pollution

Researchers and artists have joined forces to 'paint with light' -- making invisible air pollution visible and demonstrating the health risks posed to people living and working in Ethiopia, India, and the UK.

Combining digital light painting and low-cost air pollution sensors, the team produced photographic evidence of pollution levels in cities across the three countries -- sparking debate among local communities and illustrating:

Air pollution varying dramatically between locations in Ethiopia -- a kitchen using biomass stoves for food preparation where PM 2.5 concentrations in the room were up to 20 times greater than what was measured nearby outdoors;
Two children's playgrounds in India, 500 km apart -- one in urban Delhi, the other in rural Palampur -- with PM 2.5 values at the Palampur playground at least 12.5 times less than those measured in Delhi; and
Large variations in air pollution around the Port Talbot steelworks, in Wales -- air quality monitoring and light painting at dusk in summer measured PM 2.5 concentrations in the range of 30-40 mg/m 3 , when the hourly average value was 24 mg/m 3 .

An international team of researchers and artists published its findings in Nature Communications Earth & Environment -- recording how photographs taken as part of the 'Air of the Anthropocene' project had stimulated discussion around the impact of air pollution.

The project was created by artist Robin Price and University of Birmingham environmental scientist Professor Francis Pope.

Professor Pope commented: "Air pollution is the leading global environmental risk factor. By painting with light to create impactful images, we provide people with an easy-to-understand way of comparing air pollution in different contexts -- making something that was largely invisible visible.

The team used low-cost air pollution sensors to measure PM mass concentrations and took the sensors' real time signal to control a moving LED array programmed to flash more rapidly as PM concentration increased.

Photographer Robin Price commented: "By providing a visual understanding of air pollution that is accessible to people who don't necessarily have a scientific background, the light painting approach can demonstrate that managing air pollution levels can have a significant impact on people's day-to-day lives."

A long exposure photograph is taken with the artist moving the LED array in front of the camera -- the flash becoming a dot on the photograph. The artist is not seen in the photo because they are moving, but light flashes from LEDs are seen because they are bright. The more light dots appear in the photographs, the higher the PM concentration.

"Air of the Anthropocene creates spaces and places for discussion about air pollution, using art as a proxy to communicate and create dialogues about the issues associated with air pollution," added Professor Pope.

Co-author Carlo Luiu, from the University of Birmingham commented: "Thanks to the power of images, we can provoke people's emotions -- fostering awareness and prompting people to share their perspectives and take action to tackle air pollution."

The Air of the Anthropocene project has exhibited at gallery shows in Los Angeles, Belfast, and Birmingham. The project has also been used to raise air pollution awareness by UN International Organization for Migration (IOM), the Foreign, Commonwealth, and Development Office (FCDO) and UN-Habitat, which commissioned four pollution light paintings and texts to be displayed in Kampala, Uganda.

Air pollution is considered one of the main threats to both environment and human health and a leading cause of death globally. The World Health Organisation (WHO) estimates 99% of the global population breathe polluted air, causing approximately 7 million premature deaths worldwide each year.

The situation is particularly challenging in Asia, where air pollution remains a major problem in countries like India and China, despite several air quality policies and actions. African countries have experienced significant deterioration in air quality over the last five decades.

Particulate matter (PM) is the air pollutant most responsible for human morbidity and mortality. It has multiple impacts upon physical health and is responsible for diseases including heart disease, stroke, and cancers.

Air Quality
Air Pollution
Environmental Science
Environmental Issues
Environmental Awareness
Earth Science
Air pollution
Environmental impact assessment
Inversion (meteorology)
Air conditioning
Energy development

Story Source:

Materials provided by University of Birmingham . Note: Content may be edited for style and length.

Related Multimedia :

'Painting with light’ – making invisible air pollution visible

Journal Reference :

Francis D. Pope, Robin Price, Katherine E. Woolley, Carlo Luiu, Mohammed S. Alam, William R. Avis, Suzanne E. Bartington, Dawit Debebe, Zerihun Getaneh, Sheila M. Greenfield, Rachel Howells, Mukesh Khare, Abel Weldetinsae, Chloe Lawson, Sumit K. Mishra, Ben Neal, Karen Newman, Ajit Singh, Bikila Teklu Wodajo, G. Neil Thomas, Faye Wilder. Light painting photography makes particulate matter air pollution visible . Communications Earth & Environment , 2024; 5 (1) DOI: 10.1038/s43247-024-01409-4

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