presentation on physics topics

How to Make Your Physics Presentation?

Table of Contents

Creating a compelling physics presentation involves careful planning, research, and effective communication of complex concepts in a clear and engaging manner. Here are some steps to help you make your physics presentation:

Choose a Topic: Select a physics topic that interests you and aligns with your audience’s level of understanding. Consider the relevance and significance of the topic and its potential to engage and educate your audience.
Conduct Research: Research thoroughly using trusted sources like textbooks, scientific journals, and reputable websites to grasp the topic’s key concepts.
Develop an Outline: Organize your presentation into logical sections or themes. Use the outline provided earlier as a template, adapting it to suit your chosen topic and presentation format.
Create Visual Aids: Prepare visual aids such as slides, diagrams, and animations to complement your presentation. Use clear and concise graphics to illustrate complex concepts and enhance audience comprehension.
Craft a Clear Narrative: Structure your presentation with a clear beginning, middle, and end. Start with an attention-grabbing introduction to introduce the topic and establish its relevance. Present the main content in a logical sequence, highlighting key points and supporting evidence. Conclude with a summary of key takeaways and implications.
Practice Delivery: Rehearse your presentation multiple times to familiarize yourself with the content and refine your delivery. Pay attention to pacing, clarity, and nonverbal communication cues such as posture and gestures.
Engage Your Audience: Encourage active participation and interaction by asking questions, soliciting feedback, and incorporating interactive elements such as demonstrations or group activities. Tailor your presentation to the interests and background knowledge of your audience to keep them engaged and attentive.
Anticipate Questions: Prepare for potential questions from your audience by anticipating areas of confusion or ambiguity in your presentation. Be ready to provide clarifications, examples, or references to further resources to address any inquiries.
Seek Feedback: Solicit feedback from peers, mentors, or colleagues to gain valuable insights into areas for improvement. Consider their suggestions and incorporate constructive criticism to enhance the effectiveness of your presentation.
Reflect and Iterate: After delivering your presentation, take time to reflect on your performance and the audience’s response. Identify strengths and weaknesses, and consider how you can refine your approach for future presentations.

By following these steps and applying careful planning and preparation, you can create a compelling physics presentation that effectively communicates complex concepts and engages your audience in the wonders of the natural world.

Tips to Fellow to Make Physics Presentation Successful

Making a physics presentation successful requires careful planning, effective communication, and engaging presentation skills. Here are some tips to help your fellow make their physics presentation successful:

Know Your Audience: Understand the background knowledge and interests of your audience to tailor your presentation accordingly. Adjust the level of technical detail and terminology to ensure clarity and engagement.
Define Clear Objectives: Clearly define the objectives of your presentation, outlining what you aim to achieve and the key points you intend to convey. This will help you stay focused and ensure that your presentation delivers a coherent message.
Organize Your Content: Structure your presentation in a logical manner, with a clear introduction, main body, and conclusion. Use headings, subheadings, and bullet points to organize your content and guide the audience through your presentation.
Use Visual Aids Wisely: Incorporate visual aids such as slides, diagrams, and animations to enhance understanding and retention of key concepts. Keep visual elements clear, concise, and relevant to the content of your presentation.
Practice Delivery: Rehearse your presentation multiple times to familiarize yourself with the content and refine your delivery. Pay attention to pacing, tone of voice, and body language to ensure confident and engaging presentation delivery.
Engage Your Audience: Encourage active participation and interaction by asking questions, soliciting feedback, and incorporating interactive elements such as demonstrations or group activities. Engage with your audience to maintain their interest and attention throughout your presentation.
Clarify Complex Concepts: Break down complex concepts into simpler, more understandable terms, using analogies, examples, and real-world applications to illustrate key points. Clarify any technical jargon or terminology to ensure that all audience members can follow along.
Be Prepared for Questions: Anticipate questions from your audience and prepare thoughtful responses in advance. Be open to feedback and willing to address any uncertainties or misconceptions that may arise during the Q&A session.
Demonstrate Enthusiasm: Convey your passion and enthusiasm for the subject matter through your presentation delivery. Demonstrate genuine interest and excitement in sharing your knowledge with your audience, inspiring curiosity and engagement.
Seek Feedback: After delivering your presentation, solicit feedback from your audience and peers to gain valuable insights into areas for improvement. Reflect on their input and incorporate constructive criticism to enhance the effectiveness of your future presentations.

Physics is fascinating! It’s like a colorful quilt filled with amazing ideas and things that make us wonder about the universe. Whether we’re talking about basic stuff like how things move or super cool things like quantum mechanics, physics presentations help us understand how the world works. They show us the important rules that make everything tick, from tiny atoms to huge galaxies.

By learning about physics, we can see how clever humans are in figuring out nature’s secrets and using them to make awesome technology. It’s like unlocking a treasure chest full of wonders and surprises!

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200 Interesting Physics Seminar and Powerpoint Presentation Topics

interesting topics for powerpoint presentation physics

Interesting topics for Powerpoint Presentation in Physics

Special Relativity and General Relativity
Quantum Computing
Time dilation
Physics of Babies
Nikola Tesla Inventions ( PPT2 )
Greatest Physicists and their contribution
Physics-Chemistry-Biology Relation
Physics in Sports Link 2
Physics in our everyday life
Newtonian and Non-newtonian fluid
Anti-Gravity
Thermodynamics in Everyday Life
Airborne Wind Energy / Flying Windmills
Pumped-storage hydroelectricity
Compressed air energy storage ( PDF )
Magnetoresistance
Fusion Power Generation
Fluid Flow Continuity and Bernoulli’s Equation
Archimedes' Principle and Its Applications
Physics of Touch Screens Technology ( Article )
Exoplanets / Extra-Solar Planets
Space Telescopes ( Hubble / James Webb Space Telescope )
Carbon Nanotubes
The Physics of the Egyptian Pyramids
Magnus effect and its applications
Sustainable energy ( PPT 2 )
The Physics of Fire ( PPT )
The Motion of the Planets
Artificial Intelligence (AI) in Our Everyday Life
The String theory: A theory of Everything
Electromagnetism and Its applications in daily life
Electromagnetic Induction
Electromagnetic Spectrum / Electromagnetic Radiation
Transformers
Force sensor
Friction in our everyday life and Its types ( PPT 2 ) ( PDF )
Magnetorheological fluid
Magnetic field due to currents in wires ( PPT 2 )
Magnetic field patterns
Earth's Magnetic Field
Searching for Magnetic Monopoles
Electricity and Magnetism
Maglev Trains: Transrapid magnetic lift trains
Magnetic Levitation
Microwave Oven: How it works? ( PDF Report )
Physics Behind the Climate Change ( PDF Report )
Electromagnets and their uses
Fresnel's Equations
Electric Potential
Working of Motors
Working of Generators
Bioelectromagnetism
Kinematics in our daily lives
Real-Life Examples of Newton’s First Law (Inertia)
Zero Energy Buildings
Lightning Bolt Physics
Lightning Protection System (Static Electricity)
Electromagnetic Railguns
Physics behind fidget spinner
Hoverboard (Self-balancing scooter)
Physics of roller coasters
Physics behind musical instruments
Physics Behind Bruce Lee's One-Inch Punch!
Electric Cars
Working with simple electrical components
Current and charge
Ohm's law and resistance
Oscilloscope
String theory
Resistance effects
Electrical conduction through gases
Electrostatic charges
Van de Graaff generator
Energy conversion
Components of motion
Circular motion
Weightlessness
Forced vibrations and resonance
Momentum in two dimensions
Simple harmonic motion
Fiction and Its types
Friction at the atomic level
Coulomb model
Superfluidity
Transmission Lines
Peso Electricity
Atmospheric Optics
Wireless Electricity
Models of electric circuits
Wind Energy
Solar Power
Geothermal Energy
Wave Energy
Concentrated Solar Energy
Nuclear Power Generation
Physics behind the Aurora Borealis
Plasma Physics
Particle Detectors, Drift Chambers
Exponential decay and half-life
Nuclear Fission
Nuclear Fusion
Biogas Plant
Biomass Energy
First models of the atom
Cloud chambers
Particle Accelerators
Synchrotron
Model of the atom
Light behaving like a particle
Electrons behaving as waves
Evidence for the hollow atom
Nature of ionizing radiations
Radioactive sources: isotopes and availability
Acceleration due to gravity
Radio Waves
Antenna Theory and Design
How do Mobile networks work?
Solar System
Asteroid Belt Formation
Satellite Communication
Possibility of life on Mars
Mangalyaan (India's Mars Mission)
Chandrayaan-I (India's Lunar Mission)
Rocket Technology
Satellite Launch Vehicles
SpaceX: Falcon Heavy
Reusable Rockets
Space Organisations and their achievements
Global Navigation Satellite System
Gravitational force and free fall
Radar Technologies
Newtonian fluid
Pinhole camera and lens camera
Diffraction of light
Reflection of light
Refraction of light
Radio Telescope
Formation of Galaxies
Hubble's Law (Evidence)
Gravity waves
Kepler’s laws
The Copernican revolution
Magnetic sail
Planetary motion and gravity
Big Bang (The Origin)
Beyond Solar System
Constellations
Life on Mars
Mars Exploration
Why is Venus So Hot?
Trans-Neptunian region
Space-Time Fabric
Journey of Photons
Atmospheric pressure
Einstein's Theory of Relativity
How do airplanes fly?
Aerodynamics
Types of waves
Young's slits
Superconductivity
LED | OLED | MicroLED
Thermal radiation from the human body
Thermal expansion of Solid and Liquid
Concept of density
Evidence for atoms
Molecular speed
Higgs boson
Chandrashekar limit
Nuclear Reactors
Large Hadron Collider
Quantum Mechanics (Introduction)
Young's double-slit experiment
Doppler effect in Sound
Doppler effect in Light
Integrated Circuits
Microprocessors
Display Technology
3D Printing
Virtual Reality
Biosensors and Bioelectronics
Ambient intelligence
Storage Devices
Semiconductors
Fiber-optic communication
Three Phase Circuit
Home's electrical system
Types of Gear and working
Electric Bill Calculation
Impulse, Momentum, and Collisions
Dark Energy (Quantum Vacuum Energy)
Dark Matter
Acoustic Levitator
Electrometer
Hydroelectricity
Optical instruments

Interesting Questions for Physics Powerpoint Presentation Ideas

Why do things move?
Does everything that goes up come down?
Why does a bicycle stay upright when it's moving but fall when it stops?
Why do we wear seatbelts?
Why doesn’t the moon fall into the earth?
Why is it tough to walk on ice?
Why does ice melt?
Why doesn’t the moon fall?
What is sound?
What is light?
What is lightning?
What makes rainbows?
How can a boat make of steel float?
Why can’t we see air, how do we know that it's there?
Why are some turns on roads banked?
What keeps me from falling on the Silly Silo at Adventureland?
Why do my socks sometimes stick together in the clothes dryer?
Why do I get a shock after I walk across the carpet room and touch something in winter?
What’s the deal with magnets? Why do they stick on refrigerators?
By the way, how do refrigerators and air conditioners work?
Why can’t I cool my room by keeping the refrigerator door opened?
Why is it a bad idea to plug my TV, stereo, computer, radio, and hairdryer into the same outlet?
Where does electricity come from?
Why doesn’t the electricity leak out of the outlet?
What do airplanes and curveballs have in common?
Why do my ears pop when I’m on a plane?
Why can I see all of myself in a mirror that is half as tall as I am?
what is the Greenhouse effect?
what’s the deal with the ozone layer?
Is climate change real? Are we causing it?
How do(es) x-rays, microwaves, ultrasound, MRIs, LASERS, and cable TV work.?
By the way, how does TV work?
Why does the water in my tub spin in a circle as it goes down the drain? Why does it always spin in the same direction?
How does soap work?
Why is the sky blue during the day but red at sunset?
Are nuclear power plants safe?
How do they take my temperature by sticking that gadget into my ear?
Why does the cue ball stop dead when it hits another ball head-on?
What is a day, month, or year?
Why does a year on Jupiter last 12 years?
Are hydrogen fuel cells or hybrid cars the answer to the energy crisis?
What does it take to make an atomic bomb?

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25+ Most Important Physics Topics For Students

“Physics: the mysterious subject for students.”

It is great to make a command on basics first if you want to master that subject. It is the scenario with every field of study. Someone who wants to study physics must clear his/her basic concepts and be familiar with its topics like kinetic energy, potential energy, statistical mechanics, etc.

“Curiosity is the road that leads you to learn physics.”

In this blog, we will tell you what physics is and some important physics topics that will help in your daily life. We will tell you what physics is and how you can understand it.

Physics students learn about important physics topics by reading this blog. So, hang on and know everything about physics!

Get experts help to get top-notch Physics help online that will help you to improve your grades on your assignment.

What Is Physics?

Table of Contents

When we look at the things around us, many questions are in our minds. Physics gives the answers to all these questions. You all must have heard about chemistry and biology. There are a lot of applications of physics with different aspects of nature.

Chemistry tells us about the results of things, and biology studies the processes of real life. But only physics tells us how things work. And if you need chemistry assignment help , you can contact our experts.

For example: As you look at a car running on the road, the question comes to your mind how does this car run on the road, how does its engine work, and how does a small brake pedal stop the entire car? The answer to all these questions is physics. Also, angular momentum is part of physics.

Physics tells us how things work. Many physics topics help us to understand the concept of nature and the universe. From the galaxy to the small atom, we can understand all these through physics.

The term physics is derived from the Greek word PHUSIKE, which means nature and its study. Energy, force, light, and time are all very basic concepts that we study in physics.

What Are The Topics Of Basic Physics?

These are the following topics of basic physics, and it is such as;

Subject Matter Topics for Introductory Physics

The following are the subject matter topics for introductory physics. It is also the best Physics topics for College students.

Reasons: Why do students choose to study physics in their higher education?

A physics degree helps you explore the world in every aspect- from the galaxy and the small atom with electronic structure. It equips you with techniques that help you to solve complex problems. It lets you know about some beautiful things and the plain ugly truth that rule our world. In reality, analyzing physics provides you with a deep knowledge of how the world works.

With the help of physics knowledge, many students want to pursue it by taking a postgraduate course related to it. It describes the various physics mysteries.

Five reasons to study physics at college-

Experimental Physics encourages you to know the world around you and answer your curiosity.
Analyzing physics improves your problem-solving and critical-thinking skills.
Versatility is the essence of physicists, which opens a broad range of future careers.
Physics is applied everywhere and gives you a chance to work internationally.
Physics encourages technological progress, influencing society, the economy, and the environment.

List Of Important School Physics Topics

History of quantum mechanics
Newton’s Laws Of Motion
Vectors And Projectiles
Work And Energy
Circular Motion And Gravitation

Electric Circuits

Thermal physics.

Vibrations And Waves
Refraction And Lenses

There are many branches of Physics, one of which is named Mechanics, and Mechanics has three branches, one of which is named Kinematics. Kinematics is one of the most important physics topics.

Kinematics means describing the motion of an object. In kinematics, we only study the object’s motion, why that object, and who brings it into action is not related to kinematics.

Kinematics also has four parameters: velocity, displacement, acceleration, and time. With the help of these four parameters, we can describe motion in kinematics. For any assignment or homework above the kinematics subject, you can take help from our experts.

Newton’s Laws of Motion

Newton’s Law is One of the Most Important Physics Topics. Newton’s Law of Motion consists of three laws, based on which all things related to motion can be known. Newton’s law of motion consists of three laws. From these laws, we can know all things related to motion.

The first law of Newton’s law states Uniform Motion and is also called the Law of inertia. In the second Newton’s Law, the force is said to be, which is directly proportional to the square of acceleration. And in the third Newton’s law, it is said that every action has an equal and opposite reaction.

These three newton’s law of motion is a very important part of physics topics. If you are studying physics, then definitely read this topic, if any problem arises, you can take help related to physics assignments and homework from our experts.

Vectors and Projectiles

Vectors and Projectiles are one of the third most important physics topics. Vectors and projectiles both have different meanings, but they are related to each other, only then they are considered to be the same topic.

Arrows represent vectors. The length of the Arrow is Proportional to the Magnitude, and the Direction of the Arrow is to be the Direction of the Vector that defines the vector. And projectile means that after throwing any object, it goes down due to gravity.

This is a very interesting topic, if you are a student of physics, then you must read this topic, and if you need help with any assignment or homework related to it, then you can take it from our experts.

Work and Energy

Work and energy are the two words that we often use in everyday life, but this is a very important physics topic. Work and energy have different meanings in physics.

Work means that energy is transferred by force, and energy means the ability to work. Each other’s words are fulfilling the meaning of these two. It is a very interesting physics topic, on top of which you can also write many assignments.

Circular Motion and Gravitation

Circular Motion and Gravitation are very interesting physics topics. It is said that forces can be used in circular motion and gravitation.

Circular motion means when a body moves in a circular path at a content speed and constant direction. And gravitation means that if we throw an object upwards, that object will go back to the top of the force according to the Cause of Gravity.

Electric circuits are one of the physics topics that tell us in detail about electric circuits. Both positive and negative are electric field circuits. This is explained by what works and how they work.

Electric circuits refer to the positive current coming out of a cell and generator with a wire connected to the negative circuit with the help of a wire. This is a very interesting chapter for physics students and can also offer many models and assignments on this topic.

Thermal physics is also a very important part of physics topics. Thermal physics is a topic that exposes students to many new things.

The study of thermal physics is done by heat. Heat energy and thermal energies are the motions and vibrations of molecules in terms of the energy activity of any substance or system. If there are more molecules in it, the same energy will be found in it. This is a very interesting topic for students, and many assignments can be made on it.

Vibrations and Waves

Vibrations and Waves On hearing this word, your mind must have heard thoughts related to the sound. But vibrations and waves are also part of physics topics. Vibrations and waves are very important in physics. Also, know How do convex mirrors impact your reflection?

Vibrations mean that if we shake with a big pay force, then that body keeps vibrating for some time due to that force, that vibration is called vibration. A wave can be described as a disturbance that travels from one medium to another through a medium. They are both from advance quantum physics , and students can make many models and assignments on them to get the aim of physics.

Refraction and Lenses

Refraction and lenses are some of the most interesting and important physics topics. All this topic is based on refraction and lenses. Students need to know how light lanes affect refraction through their theoretical physicist.

We can determine whether the light will reflect or refract by placing the ray of light on the lens in the refraction and lenses. It is also one of the interesting topics for the students, and with the help of this topic, students can also make many physics assignments.

Bonus point: list of interesting topics for a physics research project-

Here we mention some physics research topics that you can take and prepare a project on it-

Nanoscience and Nanotechnology
Optical Physics and Quantum Information Science
Astrophysics, Fusion, and Plasma Physics
Create a project on physics history
Climate-related topic
Linear motion.
Circular and Rotational Motion.
Interactions and Force.
Motion in Two-Dimensions.

Physics topics for assignment

Follow the below-given physics topics list for the assignment.

Unit dimensions and Error.
Conservation of Momentum.
Laws of Motion.
Circular Motion.
Motion in two dimensions.
Work power and energy.

What is the best topic for physics project?

The best topic for the physics project for science and engineering practices: analyzing and s below.

Physics Topics Grade 11

Following are the topics in physics with their chapter name.

Physics topics for Class 12

Following are the physics topics are given below for the 12th grade.

Which topic is best for research in physics?

Follow the below-given points to know the physics topics for research.

Optical Physics and Quantum Information Science.
Astrophysics, Fusion, and Plasma Physics.
Microfluidics and Microsystems.
Nanoscience and Nanotechnology.
Condensed Matter and Materials Physics.
Energy Systems.
Biophysics.

Interesting topics for physics presentation

Best physics topics on mcat.

These are the following best physics topics for MCAT.

Electrostatics.
Atomic and Nuclear Phenomena.
Kinematics.
Light and Optics.
Thermodynamics.

How is physics used in daily life?

Physics captures our daily life. It explains the motion, forces, and internal energy behind ordinary works. For example, various actions like driving a car, walking, or using a phone call include advances in physics.

Let’s understand it through examples-

1. Example of heat

Heat is a kind of energy that carries from a warm object to a cold object. For example, when you use the stove for cooking, the flame transfers the heat to the utensil put on top of it. As a result, food gets heat from utensils. Physical optics must account for the more subtle properties of visible light in its waveform.

2. Example of a ballpoint pen

The use of a ballpoint pen is inevitable whether you are in school or at the workplace. If physics is not there, then you are not able to write on paper. The physics topics of gravity come when we talk about writing through a ballpoint pen.

As you press the pen on the paper to write, the ball turns, or gravity pushes the ink down on the ball top, from where it is transferred to the paper.

Useful point for students-

Job opportunities after studying physics-

A physics degree opens the door to various post for students-

Academic researcher
Acoustic consultant
Clinical scientist, medical physics
Geophysicist
Higher education lecturer
Metallurgist
Meteorologist
Nanotechnologist
Radiation protection practitioner
Research scientist (physical sciences)
Secondary school teacher
Sound engineer
Technical author

What are the 5 laws of physics?

These are the 5 laws of physics, it is given below.

Pascal’s Law
Newton’s Laws
Coulomb’s Law
Stefan’s Law
Avagadro’s Law

Quick Links

A Brief Knowledge Of Kinematics Physics Equations
The Definitive Guide On What Is Cartesian Equation

In this blog, we have explained what Physics means and which important Physics topics are there, which students can study with great interest. These all are 20th century physics topics. Moreover, many such physics topics have been told about which students can make their physics assignments and research projects. Moreover, if you need help with physics assignments, our experts offer Physics assignment help or physics homework help online free at very low prices.

Who is the father of physics?

The title “father of physics” has not been assigned to a particular person. Galileo Galilei, Sir Isaac, Albert Einstein, and Newton have all been considered the father of physics in western cultures.

What are the physics concepts everyone should know?

1. Classical mechanics (the laws of motion) 2. Electromagnetism 3. Relativity 4. Thermodynamics

What are the three main topics of physics?

The three main topics of physics are given below. Circular Motion (one-dimensional motion, two-dimensional motion, random motion, Harmonic motion) and Gravitation. Electric Circuits. Refraction and Lenses.

Which topic is hard in physics?

The hardest topic of physics is Quantum physics, pressure, and energy, work, etc.

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Teacher Presentation Pack for Physics - Contents, Topics, License

The following resources are included in the downloadable content that we make available as the Teacher Presentation Pack : Slide Decks: Our downloadable Teacher Presentation Pack contains nearly 190 Microsoft PowerPoint documents. A version of Microsoft PowerPoint is required in order to use the slide decks. The slide decks are ready to use as is; they are also fully customizable. The slide decks can also be uploaded to Google Drive and played in Google Slides. NOTE : Google Slides does not allow .mp4 files embedded from external sources nor .GIF animations with greater than 1000 frames. For some of these slide decks (mainly those containing .mp4 files and animation files with more than 1000 frames), we have prepared a second version that is immediately compatible with Google Slides. It is still a PowerPoint document; but when uploaded to Google Drive and viewed with Google Slides, there will be little loss of functionality. Learn more about .mp4 and .GIF files in our Read Me First document. Graphics and Images: The package contains a load of graphics. The graphics can be found in the slide decks and in most cases, they are also saved as separate files. Nearly all saved graphics files are in .png file format. They are organized in a folder titled Images inside of the folder containing each PowerPoint. They are meaningfully named. They can be easily uploaded into other documents such to make quizzes, tests, instructional sheets, etc. Our goal was to provide a pack of content and this is part of the content. In many cases, the source of the image is available for editing in either PowerPoint or a Microsoft Word document. This allows teachers to edit and customize the graphics and re-purpose them for use in instructional sheets, quizzes, tests, and other documents. NOTE: In some instances, we were not able to include the graphic for copyright reasons. Instead, we left the URL to the location of the graphic. Users can obtain the graphic at the URL and paste it into the PowerPoint. Animations and Movies: There are about 170 animations and videos available in .gif and/or .mp4 format. These are embedded int the PowerPoint slide decks but also available as stand-alone files. There is no source code for the animations. The .GIF animations display well in the PowerPoint slide decks. Most of the .GIF animations also display well when using the PowerPoints in Google Slides. The .mp4 files are also available as separate files. If desired and if space allows, they can be uploaded to Google Drive and embedded in the PowerPoint slide decks; this solves the issue associated with Google Slides not allowing .mp4 files embedded from external sources. Lesson Notes: Every slide deck is accompanied by Lesson Notes. The Lesson Notes are very graphical and coordinate with the slides in the Slide Deck. They are the same Lesson Notes that can be found in our Physics Video Tutorial section. We provide a PDF version and the source document - a Microsoft Word document - making them both ready-to-use and fully-customizable. Users are free to edit the document, re-purpose the parts, distribute it to students in their school, and upload it to a password-protected course management page.

End User License Agreement

You are free to use the content with your students and other students in the school. You can share files with your students and other students in the school provided that the medium used to share files is password-protected and viewable only by students at your school (and their parents). As this is a for-sale product, you cannot make the files available through publicly accessible platforms that allow for use, downloading, and acquisition by others. Please password protect the contents of this package.

You are also free to edit the content of this downloaded package and to re-purpose images, animations, movies, MS Word documents to create derivative works. Those derivative works can be used and shared with your students and other students at your school provided that the medium used to share is password-protected and viewable only by students at your school (and their parents).

You are prohibited from selling the contents of this download package or any derivatives made from the contents of the package. And you are prohibited from including or using the contents or any derivatives in commercial products that are owned or managed by others.

The terms of this license apply to the students and teachers at your school with whom you share the files and derivative works.

Our slide decks provide coverage of 14 broad topic areas. There is no need to be surprised by what is and is not included in this downloadable resource pack. Details of topics and subtopics addressed in the Teacher Presentation Pack can be viewed by clicking the following links. The links will open a PDF in a separate browser tab. We also identify the names and duration (time) of the animations and movie files in the PDF. Kinematics Newton's Laws Vectors and Projectiles Forces in Two Dimensions Momentum and Collisions Work and Energy Circular and Satellite Motion Electrostatics Electric Circuits Vibrations and Waves Sound Waves and Music Light Waves and Color Reflection and Mirrors Refraction and Lenses

The World of Teaching

Free Teacher resources including over 1000 Powerpoint presentations

Physics powerpoint presentations Free to download

Physics powerpoint presentations free to download and use for teaching.

Using PowerPoint for teaching physics can be an effective way to engage your students and present complex concepts visually. Here are some tips on how to use PowerPoint effectively for teaching physics:

Start with an outline: Plan your presentation by creating an outline that outlines the main topics and subtopics you want to cover. This will help you organize your content and ensure a logical flow.

Use visuals: Physics often involves abstract concepts that can be challenging for students to grasp. Incorporate relevant visuals such as diagrams, graphs, images, or videos to make the concepts more tangible and easier to understand.

Simplify complex ideas: Break down complex physics concepts into smaller, more digestible pieces. Use step-by-step explanations and visual representations to help students follow along and grasp the core principles.

Use animations and transitions: PowerPoint offers animation and transition features that can be used to demonstrate processes or show how variables change over time. For example, you can use animations to illustrate the motion of objects or the behavior of waves

Below are a list of physics powerpoint presentations.

These have been submitted by teachers to help other teachers. They can be used freely and modified to your own preferred format.

Physics powerpoint presentations- Please submit any powerpoints you have made at the bottom of this page

Please submit any of your own physics powerpoints using the form below. It is very much appreciated.

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Other hints and tips for making physics powerpoint presentations

Incorporate real-world examples: Relate physics concepts to real-life examples and applications. Show how these concepts are used in everyday situations or in specific fields like engineering or astronomy. This can help students connect theory to practical applications.

Encourage active learning: Design interactive slides that encourage student participation. Include questions, quizzes, or problem-solving activities within your presentation. This promotes active engagement and helps students apply their knowledge.

Provide clear explanations: Use concise and clear explanations to convey information. Break down complex equations or formulas into smaller parts and explain each component separately. Use bullet points, charts, or diagrams to support your explanations.

Include practice problems: Dedicate slides to practice problems that allow students to apply the concepts they have learned. Walk them through the problem-solving process step by step and provide explanations for each step.

Allow for discussion and questions: Allocate time for students to ask questions or engage in discussions related to the presented material. Encourage active participation and create a supportive learning environment.

Keep it visually appealing: Use a consistent and visually appealing design throughout your presentation. Choose an appropriate font, color scheme, and layout that is easy to read and visually appealing. Avoid cluttered slides that may distract or confuse students.

Use multimedia elements: Consider incorporating videos, simulations, or interactive online resources to enhance student understanding and engagement. These can provide visual demonstrations or virtual experiments that supplement your teaching.

Review and summarize: End your presentation with a summary slide that recaps the main points covered. Reinforce key concepts and encourage students to review the material on their own.

Remember to adapt your presentation style to suit the needs of your students and adjust the pace of your presentation accordingly. Be prepared to answer questions and provide further clarification as needed.

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100+ Physics Seminar Topics for Students

Manali Ganguly ,

Mar 4, 2024

Share it on:

The physics seminar topics for students are those of refraction, reflection, Ohm’s Law of resistance, making and breaking of circuit, thermodynamics, motion, Newton’s laws of motion, theory of relativity, etc. These topics help the students in understanding the subject in an easier way.

100+ Physics Seminar Topics for Students

The most popular physics seminar topics include nuclear physics, thermodynamics, motion, quantum mechanics, energy, electromagnetism, gravitation, optics, atomic physics, and molecular physics among others. The students can pick any of these topics for their physics seminars.

The seminars are a great opportunity given to the students to learn about the topics. They develop a deeper understanding of the subject through the seminars. The seminars offer a practical knowledge of the topics involved.

100+ Physics Seminar Topics

The school and college courses have included physics seminars in their curriculum. The seminars and presentations expose the students to the real-life models of the theories and help them understand the subject in a rather realistic way.

Students who want to pursue courses or have taken up courses in nuclear engineering, chemical engineering, computer engineering, etc., can have a look at the computer engineering seminar topics , chemical engineering seminar topics , and other related seminar topics to help them in their course ahead.

The physics seminar topics that are most commonly given to the students are mentioned below:

Van de Graaff generator
Oscilloscope
Weightlessness
Atmospheric Optics
Fiction and types
Solar Power
Nuclear Power Generation
Particle Detectors & Drift Chambers
Particle Accelerators
Plasma Physics
Nuclear Fusion
Current & charge
Working with electrical components
Ohm's Law & resistance
Friction at atomic level
Transmission Lines
Superfluidity
Coulomb’s law
Peso Electricity
Semiconductors
Storage Devices
Three Phase Circuit
Types of Gears
Impulse, Momentum, & Collisions
Hydroelectricity
Fiber-optic communication
Home's electrical system
Electric Bill Calculation
Acoustic Levitator
Optical instruments
Electrometer
Dark Energy
Dark Matter
Young's double-slit experiment
Thermal radiation from human body
Concept of density
Molecular speed
Nuclear Reactors
Quantum Mechanics
Doppler effect in light and sound
Thermal expansion of Solid & Liquid
Evidence for atoms
Higgs boson
Chandrashekar limit
Large Hadron Collider
The Copernican revolution
Planetary motion & gravity
Beyond Solar System
Mars Exploration
Why is Venus Hot?
Magnetic Sail
Life on Mars
Trans-Neptunian Region
Constellations
Big Bang (The Origin)
Microprocessors
3D Printing
Biosensors and Bioelectronics
Ambient Intelligence
Display Technology
Virtual Reality
Integrated Circuits
Space-Time Fabric
Atmospheric Pressure
How Aeroplanes Fly?
Types of Waves
Superconductivity
Journey of Photons
Einstein's Theory of Relativity
Aerodynamics
Young's Slits
Synchrotron
Light Behaving like Particle
Evidence of Hollow Atom
Radioactive Sources: Isotopes
Acceleration due to Gravity
Nature of Ionising Radiations
Antenna Theory and Design
Radio Waves
Asteroid Belt Formation
Model of the Atom
Electrons Behaving like Waves
Solar System
How Mobile Networks Work?
Satellite Communication
Satellite Launch Vehicles
Rocket Technology
Reusable Rockets
SpaceX: Falcon Heavy
Global Navigation Satellite System
Space Organisations and Achievements
Formation of Galaxies
Refraction of Light

Also Check: 100+ Electronics Engineering Seminar Topics for Students

Benefits of Physics Seminar Topics for Students

The Physics seminar topics help the students understand the subject in a clearer way. They have an enhanced knowledge about the topics because the seminars require them to work on the real models. The students who have enrolled in B.Sc Physics or M.Sc Physics courses, can think and analyse the physics theories in an easier and more lucid way.

In showcasing the topics, the students also develop the skills of demonstrating what they learn through the engineering course.The physics seminars are informative and educational in nature. Working on the theories make the concept clearer and help in a better understanding of the topics.

Also Check : How to Start a Group Discussion?

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1.1 Physics: An Introduction

Learning objectives.

By the end of this section, you will be able to:

Explain the difference between a principle and a law.
Explain the difference between a model and a theory.

The physical universe is enormously complex in its detail. Every day, each of us observes a great variety of objects and phenomena. Over the centuries, the curiosity of the human race has led us collectively to explore and catalog a tremendous wealth of information. From the flight of birds to the colors of flowers, from lightning to gravity, from quarks to clusters of galaxies, from the flow of time to the mystery of the creation of the universe, we have asked questions and assembled huge arrays of facts. In the face of all these details, we have discovered that a surprisingly small and unified set of physical laws can explain what we observe. As humans, we make generalizations and seek order. We have found that nature is remarkably cooperative—it exhibits the underlying order and simplicity we so value.

It is the underlying order of nature that makes science in general, and physics in particular, so enjoyable to study. For example, what do a bag of chips and a car battery have in common? Both contain energy that can be converted to other forms. The law of conservation of energy (which says that energy can change form but is never lost) ties together such topics as food calories, batteries, heat, light, and watch springs. Understanding this law makes it easier to learn about the various forms energy takes and how they relate to one another. Apparently unrelated topics are connected through broadly applicable physical laws, permitting an understanding beyond just the memorization of lists of facts.

The unifying aspect of physical laws and the basic simplicity of nature form the underlying themes of this text. In learning to apply these laws, you will, of course, study the most important topics in physics. More importantly, you will gain analytical abilities that will enable you to apply these laws far beyond the scope of what can be included in a single book. These analytical skills will help you to excel academically, and they will also help you to think critically in any professional career you choose to pursue. This module discusses the realm of physics (to define what physics is), some applications of physics (to illustrate its relevance to other disciplines), and more precisely what constitutes a physical law (to illuminate the importance of experimentation to theory).

Science and the Realm of Physics

Science consists of the theories and laws that are the general truths of nature as well as the body of knowledge they encompass. Scientists are continually trying to expand this body of knowledge and to perfect the expression of the laws that describe it. Physics is concerned with describing the interactions of energy, matter, space, and time, and it is especially interested in what fundamental mechanisms underlie every phenomenon. The concern for describing the basic phenomena in nature essentially defines the realm of physics .

Physics aims to describe the function of everything around us, from the movement of tiny charged particles to the motion of people, cars, and spaceships. In fact, almost everything around you can be described quite accurately by the laws of physics. Consider a smart phone ( Figure 1.3 ). Physics describes how electricity interacts with the various circuits inside the device. This knowledge helps engineers select the appropriate materials and circuit layout when building the smart phone. Next, consider a GPS system. Physics describes the relationship between the speed of an object, the distance over which it travels, and the time it takes to travel that distance. GPS relies on precise calculations that account for variations in the Earth's landscapes, the exact distance between orbiting satellites, and even the effect of a complex occurrence of time dilation. Most of these calculations are founded on algorithms developed by Gladys West, a mathematician and computer scientist who programmed the first computers capable of highly accurate remote sensing and positioning. When you use a GPS device, it utilizes these algorithms to recognize where you are and how your position relates to other objects on Earth.

Applications of Physics

You need not be a scientist to use physics. On the contrary, knowledge of physics is useful in everyday situations as well as in nonscientific professions. It can help you understand how microwave ovens work, why metals should not be put into them, and why they might affect pacemakers. (See Figure 1.4 and Figure 1.5 .) Physics allows you to understand the hazards of radiation and rationally evaluate these hazards more easily. Physics also explains the reason why a black car radiator helps remove heat in a car engine, and it explains why a white roof helps keep the inside of a house cool. Similarly, the operation of a car’s ignition system as well as the transmission of electrical signals through our body’s nervous system are much easier to understand when you think about them in terms of basic physics.

Physics is the foundation of many important disciplines and contributes directly to others. Chemistry, for example—since it deals with the interactions of atoms and molecules—is rooted in atomic and molecular physics. Most branches of engineering are applied physics. In architecture, physics is at the heart of structural stability, and is involved in the acoustics, heating, lighting, and cooling of buildings. Parts of geology rely heavily on physics, such as radioactive dating of rocks, earthquake analysis, and heat transfer in the Earth. Some disciplines, such as biophysics and geophysics, are hybrids of physics and other disciplines.

Physics has many applications in the biological sciences. On the microscopic level, it helps describe the properties of cell walls and cell membranes ( Figure 1.6 and Figure 1.7 ). On the macroscopic level, it can explain the heat, work, and power associated with the human body. Physics is involved in medical diagnostics, such as x-rays, magnetic resonance imaging (MRI), and ultrasonic blood flow measurements. Medical therapy sometimes directly involves physics; for example, cancer radiotherapy uses ionizing radiation. Physics can also explain sensory phenomena, such as how musical instruments make sound, how the eye detects color, and how lasers can transmit information.

It is not necessary to formally study all applications of physics. What is most useful is knowledge of the basic laws of physics and a skill in the analytical methods for applying them. The study of physics also can improve your problem-solving skills. Furthermore, physics has retained the most basic aspects of science, so it is used by all of the sciences, and the study of physics makes other sciences easier to understand.

Models, Theories, and Laws; The Role of Experimentation

The laws of nature are concise descriptions of the universe around us; they are human statements of the underlying laws or rules that all natural processes follow. Such laws are intrinsic to the universe; humans did not create them and so cannot change them. We can only discover and understand them. Their discovery is a very human endeavor, with all the elements of mystery, imagination, struggle, triumph, and disappointment inherent in any creative effort. (See Figure 1.8 and Figure 1.9 .) The cornerstone of discovering natural laws is observation; science must describe the universe as it is, not as we may imagine it to be.

We all are curious to some extent. We look around, make generalizations, and try to understand what we see—for example, we look up and wonder whether one type of cloud signals an oncoming storm. As we become serious about exploring nature, we become more organized and formal in collecting and analyzing data. We attempt greater precision, perform controlled experiments (if we can), and write down ideas about how the data may be organized and unified. We then formulate models, theories, and laws based on the data we have collected and analyzed to generalize and communicate the results of these experiments.

A model is a representation of something that is often too difficult (or impossible) to display directly. While a model is justified with experimental proof, it is only accurate under limited situations. An example is the planetary model of the atom in which electrons are pictured as orbiting the nucleus, analogous to the way planets orbit the Sun. (See Figure 1.10 .) We cannot observe electron orbits directly, but the mental image helps explain the observations we can make, such as the emission of light from hot gases (atomic spectra). Physicists use models for a variety of purposes. For example, models can help physicists analyze a scenario and perform a calculation, or they can be used to represent a situation in the form of a computer simulation. A theory is an explanation for patterns in nature that is supported by scientific evidence and verified multiple times by various groups of researchers. Some theories include models to help visualize phenomena, whereas others do not. Newton’s theory of gravity, for example, does not require a model or mental image, because we can observe the objects directly with our own senses. The kinetic theory of gases, on the other hand, is a model in which a gas is viewed as being composed of atoms and molecules. Atoms and molecules are too small to be observed directly with our senses—thus, we picture them mentally to understand what our instruments tell us about the behavior of gases.

A law uses concise language to describe a generalized pattern in nature that is supported by scientific evidence and repeated experiments. Often, a law can be expressed in the form of a single mathematical equation. Laws and theories are similar in that they are both scientific statements that result from a tested hypothesis and are supported by scientific evidence. However, the designation law is reserved for a concise and very general statement that describes phenomena in nature, such as the law that energy is conserved during any process, or Newton’s second law of motion, which relates force, mass, and acceleration by the simple equation F = m a F = m a . A theory, in contrast, is a less concise statement of observed phenomena. For example, the Theory of Evolution and the Theory of Relativity cannot be expressed concisely enough to be considered a law. The biggest difference between a law and a theory is that a theory is much more complex and dynamic. A law describes a single action, whereas a theory explains an entire group of related phenomena. And, whereas a law is a postulate that forms the foundation of the scientific method, a theory is the end result of that process.

Less broadly applicable statements are usually called principles (such as Pascal’s principle, which is applicable only in fluids), but the distinction between laws and principles often is not carefully made.

Models, Theories, and Laws

Models, theories, and laws are used to help scientists analyze the data they have already collected. However, often after a model, theory, or law has been developed, it points scientists toward new discoveries they would not otherwise have made.

The models, theories, and laws we devise sometimes imply the existence of objects or phenomena as yet unobserved. These predictions are remarkable triumphs and tributes to the power of science. It is the underlying order in the universe that enables scientists to make such spectacular predictions. However, if experiment does not verify our predictions, then the theory or law is wrong, no matter how elegant or convenient it is. Laws can never be known with absolute certainty because it is impossible to perform every imaginable experiment in order to confirm a law in every possible scenario. Physicists operate under the assumption that all scientific laws and theories are valid until a counterexample is observed. If a good-quality, verifiable experiment contradicts a well-established law, then the law must be modified or overthrown completely.

The study of science in general and physics in particular is an adventure much like the exploration of uncharted ocean. Discoveries are made; models, theories, and laws are formulated; and the beauty of the physical universe is made more sublime for the insights gained.

The Scientific Method

Ibn al-Haytham (sometimes referred to as Alhazen), a 10th-11th century scientist working in Cairo, significantly advanced the understanding of optics and vision. But his contributions go much further. In demonstrating that previous approaches were incorrect, he emphasized that scientists must be ready to reject existing knowledge and become "the enemy" of everything they read; he expressed that scientists must trust only objective evidence. Al-Haytham emphasized repeated experimentation and validation, and acknowledged that senses and predisposition could lead to poor conclusions. His work was a precursor to the scientific method that we use today.

As scientists inquire and gather information about the world, they follow a process called the scientific method . This process typically begins with an observation and question that the scientist will research. Next, the scientist typically performs some research about the topic and then devises a hypothesis. Then, the scientist will test the hypothesis by performing an experiment. Finally, the scientist analyzes the results of the experiment and draws a conclusion. Note that the scientific method can be applied to many situations that are not limited to science, and this method can be modified to suit the situation.

Consider an example. Let us say that you try to turn on your car, but it will not start. You undoubtedly wonder: Why will the car not start? You can follow a scientific method to answer this question. First off, you may perform some research to determine a variety of reasons why the car will not start. Next, you will state a hypothesis. For example, you may believe that the car is not starting because it has no engine oil. To test this, you open the hood of the car and examine the oil level. You observe that the oil is at an acceptable level, and you thus conclude that the oil level is not contributing to your car issue. To troubleshoot the issue further, you may devise a new hypothesis to test and then repeat the process again.

The Evolution of Natural Philosophy into Modern Physics

Physics was not always a separate and distinct discipline. It remains connected to other sciences to this day. The word physics comes from Greek, meaning nature. The study of nature came to be called “natural philosophy.” From ancient times through the Renaissance, natural philosophy encompassed many fields, including astronomy, biology, chemistry, physics, mathematics, and medicine. Over the last few centuries, the growth of knowledge has resulted in ever-increasing specialization and branching of natural philosophy into separate fields, with physics retaining the most basic facets. (See Figure 1.11 , Figure 1.12 , and Figure 1.13 .) Physics as it developed from the Renaissance to the end of the 19th century is called classical physics . It was transformed into modern physics by revolutionary discoveries made starting at the beginning of the 20th century.

Classical physics is not an exact description of the universe, but it is an excellent approximation under the following conditions: Matter must be moving at speeds less than about 1% of the speed of light, the objects dealt with must be large enough to be seen with a microscope, and only weak gravitational fields, such as the field generated by the Earth, can be involved. Because humans live under such circumstances, classical physics seems intuitively reasonable, while many aspects of modern physics seem bizarre. This is why models are so useful in modern physics—they let us conceptualize phenomena we do not ordinarily experience. We can relate to models in human terms and visualize what happens when objects move at high speeds or imagine what objects too small to observe with our senses might be like. For example, we can understand an atom’s properties because we can picture it in our minds, although we have never seen an atom with our eyes. New tools, of course, allow us to better picture phenomena we cannot see. In fact, new instrumentation has allowed us in recent years to actually “picture” the atom.

Limits on the Laws of Classical Physics

For the laws of classical physics to apply, the following criteria must be met: Matter must be moving at speeds less than about 1% of the speed of light, the objects dealt with must be large enough to be seen with a microscope, and only weak gravitational fields (such as the field generated by the Earth) can be involved.

Some of the most spectacular advances in science have been made in modern physics. Many of the laws of classical physics have been modified or rejected, and revolutionary changes in technology, society, and our view of the universe have resulted. Like science fiction, modern physics is filled with fascinating objects beyond our normal experiences, but it has the advantage over science fiction of being very real. Why, then, is the majority of this text devoted to topics of classical physics? There are two main reasons: Classical physics gives an extremely accurate description of the universe under a wide range of everyday circumstances, and knowledge of classical physics is necessary to understand modern physics.

Modern physics itself consists of the two revolutionary theories, relativity and quantum mechanics. These theories deal with the very fast and the very small, respectively. Relativity must be used whenever an object is traveling at greater than about 1% of the speed of light or experiences a strong gravitational field such as that near the Sun. Quantum mechanics must be used for objects smaller than can be seen with a microscope. The combination of these two theories is relativistic quantum mechanics, and it describes the behavior of small objects traveling at high speeds or experiencing a strong gravitational field. Relativistic quantum mechanics is the best universally applicable theory we have. Because of its mathematical complexity, it is used only when necessary, and the other theories are used whenever they will produce sufficiently accurate results. We will find, however, that we can do a great deal of modern physics with the algebra and trigonometry used in this text.

Check Your Understanding

A friend tells you they have learned about a new law of nature. What can you know about the information even before your friend describes the law? How would the information be different if your friend told you they had learned about a scientific theory rather than a law?

Without knowing the details of the law, you can still infer that the information your friend has learned conforms to the requirements of all laws of nature: it will be a concise description of the universe around us; a statement of the underlying rules that all natural processes follow. If the information had been a theory, you would be able to infer that the information will be a large-scale, broadly applicable generalization.

PhET Explorations

Equation grapher.

Learn about graphing polynomials. The shape of the curve changes as the constants are adjusted. View the curves for the individual terms (e.g. y = bx y = bx ) to see how they add to generate the polynomial curve.

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Physics 1425 PowerPoint Slides

Michael Fowler, UVa

These are the slides I created for Physics 1425 (Physics I for Engineers) in the Spring of 2010. They were supplemented with some clicker questions supplied with the textbook (Giancoli), but most of the slides used are here (in PDF format).

To get the .pptx files, click to open the pdf, then type pptx in place of pdf.

1. Introduction
2. Kinematics
3. Falling Motion
4. Two-Dimensional Motion
5. Projectile Motion
6. Newton's Laws
7. Using Newton's Laws
8. Friction
9. Circular Motion
10. More Circular Motion
11. Gravitation
12. Work and Energy
13. Kinetic Energy
14. More About Energy
15. Momentum
16. More Momentum
17. Center of Mass
18. More Circular Motion
19. Rotational Dynamics
20. More Rotational Dynamics
21. Angular Momentum
22. More Angular Momentum
23. Statics
24. More Statics
25. Hydrostatics
26. More Hydrostatics
27. Hydrodynamics
28. Simple Harmonic Motion
29. Damped Driven Oscillators
30. Temperature, Expansion, Ideal Gas Law
31. Kinetic Theory Gases
32. More Kinetic Theory
33. Heat and Energy
34. Gas Processes and Heat Transport
35. Second Law and heat Engines
36. Entropy

Physics Presentation for Class 12

Book 1 - physics, chapter 1: electric charges and fields, chapter 2: electrostatic potential and capacitance, chapter 3: current electricity, chapter 4: moving charges and magnetism, chapter 5: magnetism and matter, chapter 6: electromagnetic induction, chapter 7: alternating current, chapter 8: electromagnetic wave, book 2 - physics, chapter 9: ray optics and optical instruments, chapter 10: wave optics, chapter 11: dual nature of radiation and matter, chapter 12: atoms, chapter 13: nuclei, chapter 14: semiconductor electronics.

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50 physics topics: read and start writing today.

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Easy Physics Research Topics

If you don’t want to spend a lot of time writing your paper, use one of our easy physics research topics:

How does lightening happen?
What is Peso Electricity?
Describe superfluidity.
What is the Aurora Borealis?
Compare centripetal forces to centrifugal forces.

Physics IA Topics

Looking for a great topic for the Internal Assessment? Just pick one of the following physics IA topics and start writing:

Explore Hooke’s law in relation to springs.
Are different material affected by drag differently?
How does changing the wing shape of an airplane affect its flight?
The relation between airplane wingspan and gliding distance.
Additives that affect the density of water and make it easier to swim.

Cool Physics Topics

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What is the neutrino phenomenon?
How is the weak charge of protons measured?
How does an MRI machine work?
Analyzing advances in microdosimetry.
Can proton therapy cure cancer?

Modern Physics Topics

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Measuring the doses required for radiotherapy.
Is CAT imaging risky?
Laser spectroscopy: The latest breakthroughs
How do positrons behave in plasma mediums?
How does a particle accelerator work?

Physics GRE Topics

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Analyze condensed matter.
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Explore any of the concepts of electromagnetism.
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Analyze the Bohr models.
How do parallel-plate capacitors work?
How does the pendulum work?
Explain Kepler’s law.
What is polarization in physical optics?

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How can physics reduce global warming?
Physics and healthcare: the major ties.
The achievements of Ernest Rutherford.
Describe the most important theoretical framework in physics.
Can robots replace human workers?

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Explain what matter is with examples.
Describe the greatest invention in history.
How do we diagnose cancer using physics?
Is the study of physics more important than the study of the universe?
Explain what a magnetic field is and how it works.

Physics Topics for Project

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Exploring magneto-resistance.
Exploring the physics of fire.
How does a force sensor work?
An example of magnetic levitation.
Build a self-balancing scooter.

Advanced Physics Topics

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The mechanism of the anti-gravity wheel.
How do touchscreens work?
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Explain the concept of special relativity.
What are the Magnus effects?

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Physics library

Unit 1: one-dimensional motion, unit 2: two-dimensional motion, unit 3: forces and newton's laws of motion, unit 4: centripetal force and gravitation, unit 5: work and energy, unit 6: impacts and linear momentum, unit 7: torque and angular momentum, unit 8: oscillations and mechanical waves, unit 9: fluids, unit 10: thermodynamics, unit 11: electric charge, field, and potential, unit 12: circuits, unit 13: magnetic forces, magnetic fields, and faraday's law, unit 14: electromagnetic waves and interference, unit 15: geometric optics, unit 16: special relativity, unit 17: quantum physics, unit 18: discoveries and projects, unit 19: review for ap physics 1 exam.

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Physics Presentation templates - Page 2

To understand how the world we know works like it does, one of the main scientific disciplines in charge of providing answers is physics. get these google slides themes and powerpoint templates and prove that the formula "slidesgo + creativity = success" is true.

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Electrical energy and power in physics.

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Physics Flashcards

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Biophysics Specialized Academy

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Newton was a scientist that changed the history of physics. He came up with three laws that could describe how the objects around us move and interact with each other, and they’re super easy to understand, as long as you use visual representations of the forces. This template offers exactly...

Force, Motion, and Energy - Science - 11th Grade Infographics

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Mathematics Subject for High School - 9th Grade: Algebra II presentation template

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Mathematics Subject for High School - 9th Grade: Algebra II

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Biomass Resources for Green Energy Workshop

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Mechanics and Kinematics - Science - 11th Grade

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$Operations and Algebraic Thinking - Math for Elementary presentation template$

Operations and Algebraic Thinking - Math for Elementary

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Science Activities for Middle School: Magnetic Field

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Math Subject for Pre-K: Shapes

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Force, Motion, and Energy - Science - 10th Grade

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Nuclear physics

Teaching nuclear physics using data rather than models, recovering helium from party balloons

What is the best way to teach nuclear physics? Is the discipline more difficult than particle physics? What does a nuclear physicist make of the film Oppenheimer ? These are just three of the questions addressed by David Jenkins in this episode of the Physics World Weekly podcast. A nuclear physicist and author based at the UK’s University of York, Jenkins is in conversation with Physics World ’s Matin Durrani.

Also featured in this episode is Dale Keeping , who is helium recovery manager at the UK’s ISIS Neutron and Muon Source. He explains how helium is used at the facility; where the helium supply comes from; and how he and his colleagues manage this non-renewable resource. Keeping also chats about an outreach initiative that involves collecting used party balloons so the helium can be re-used at ISIS.

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Physics instructor brings humor and everyday language to mysteries of the universe

Physics instructor and author Mark Egdall dressed as Albert Einstein for an appearance at Princeton University.

By Amy Ellis 06-06-2024

Mark Egdall is not afraid of a little controversy. That's why, as a physics instructor at the Osher Lifelong Learning Institute (OLLI), he hasn't hesitated to tackle such thorny subjects as time travel, the origins of the universe, and the centuries-old tension between science and religion.

His goal, Egdall says, is not to be contrarian – but to explain the wonders of modern science to people who perhaps never thought they could understand such topics.

Egdall, who has been known to lecture on Einstein's theory of relativity dressed as the Nobel Prize-winning scientist, said some of his students have told him they wished they had had someone like him in their science classes in school.

"I love when students say they are able to understand a particular scientific subject for the first time," he said. "It's the best feeling. That and when my students spontaneously applaud at the end of a course."

His approach seems to be working, as it has made him one of the most popular science instructors at OLLI, said Michelle Alvarez, director of the program. His topics range from astronomy and cosmology to modern physics and the origins of religion.

"What I have heard from our students is that what makes his classes so interesting is that he simplifies complex subjects to where they can actually understand it," Alvarez said.

Some students sign up for almost every class Egdall teaches.

"Choosing a favorite class would be like choosing a favorite child," said OLLI member Joyce Schiffman, who said she has lost track of how many of Egdall's courses she has taken over the years. "All his classes are mesmerizing. He explains everything so well."

Egdall got his start as an OLLI instructor 15 years ago, after more than three decades in the aerospace industry. He previously managed state-of-the-art infrared sensor systems for NASA and the US Department of Defense. He also worked on large telescope systems, high-energy laser optics, and studies for the Hubble Telescope.

Since retiring, he has written three books, including Einstein Relatively Simple: Our Universe Revealed in Everyday Language , which received a Florida Book Award for general non-fiction from the Florida State Universities Libraries.

His latest book, Cosmic Roots: The Conflict Between Science and Religion and How it Led to the Secular Age , was named a 2023 Nautilus Book Awards winner in the category of science and cosmology.

"My goal is to explain concepts with clarity, patience, and humor," said Egdall, who earned his bachelor's degree in physics from Northeastern University. "I also want students to gain an appreciation of the brilliance and hard work of the great scientists and their profound influence on today's technology and culture."

Egdall, who has lectured everywhere from Star Trek conventions to public libraries and bookstores, said he finds his OLLI students to be among his most attentive and engaged audiences.

"UM OLLI students are wonderful to teach," he said. "Their interest and intelligence shines through in their questions. I learn from them."

His next course for OLLI may focus on the landmark discoveries of space-based telescopes, such as NASA's Webb and Hubble telescopes.

"I would present on the design, engineering, and extraordinary discoveries of space-based telescopes," he said. "I would also discuss the amazing gravitational-wave detector systems such as LIGO (the Laser Interferometric Gravitational-Wave Observatory) and Virgo, and the implications of their breakthrough findings."

OLLI is the perfect forum for lifelong learners to explore such topics, Egdall said.

"It's a wonderful place to learn new things on a broad range of topics," he said. "And it's also a great place to make new friends."

To learn more about OLLI, visit miami.edu/olli

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Groundbreaking progress in quantum physics: How quantum field theories decay and fission

A simple concept of decay and fission of 'magnetic quivers' helps to clarify complex quantum physics and mathematical structures.

An international research team around Marcus Sperling, a researcher at the Faculty of Physics, University of Vienna, has sparked interest in the scientific community with pioneering results in quantum physics: In their current study, the researchers reinterpret the Higgs mechanism, which gives elementary particles mass and triggers phase transitions, using the concept of "magnetic quivers." The work has now been published in the journal " Physical Review Letters ."

The foundation of Marcus Sperling's research, which lies at the intersection of physics and mathematics, is Quantum Field Theory (QFT) -- a physical-mathematical concept within quantum physics focused on describing particles and their interactions at the subatomic level. Since 2018, he has developed the so-called "magnetic quivers" along with colleagues -- a graphical tool that summarizes all the information needed to define a QFT, thus displaying complex interactions between particle fields or other physical quantities clearly and intuitively.

Metaphorical Magnetic Quivers

A quiver consists of directed arrows and nodes. The arrows represent the quantum fields (matter fields), while the nodes represent the interactions -- e.g., strong, weak, or electromagnetic -- between the fields. The direction of the arrows indicates how the fields are charged under the interactions, e.g., what electric charge the particles carry. Marcus Sperling explains, "The term 'magnetic' is also used metaphorically here to point to the unexpected quantum properties that are made visible by these representations. Similar to the spin of an electron, which can be detected through a magnetic field, magnetic quivers reveal certain properties or structures in the QFTs that may not be obvious at first glance." Thus, they offer a practical way to visualize and analyze complex quantum phenomena, facilitating new insights into the underlying mechanisms of the quantum world.

Supersymmetric QFTs

For the current study, the stable ground states (vacua) -- the lowest energy configuration in which no particles or excitations are present -- in a variety of "supersymmetric QFTs" were explored. These QFTs, with their simplified space-time symmetry, serve as a laboratory environment, as they resemble real physical systems of subatomic particles but have certain mathematical properties that facilitate calculations. FWF START award winner Sperling said, "Our research deals with the fundamentals of our understanding of physics. Only after we have understood the QFTs in our laboratory environment can we apply these insights to more realistic QFT models." The concept of magnetic quivers -- one of the main research topics of Sperling's START project at the University of Vienna -- was used as a tool to provide a precise geometric description of the new quantum vacua.

Decay & Fission: Higgs Mechanism Reinterpreted

With calculations based on linear algebra, the research team demonstrated that -- analogous to radioactivity in atomic nuclei -- a magnetic quiver can decay into a more stable state or fission into two separate quivers. These transformations offer a new understanding of the Higgs mechanism in QFTs, which either decay into simpler QFTs or fission into separate, independent QFTs. Physicist Sperling stated, "The Higgs mechanism explains how elementary particles acquire their mass by interacting with the Higgs field, which permeates the entire universe. Particles interact with this field as they move through space -- similar to a swimmer moving through water." A particle that has no mass usually moves at the speed of light. However, when it interacts with the Higgs field, it "sticks" to this field and becomes sluggish, leading to the manifestation of its mass. The Higgs mechanism is thus a crucial concept for understanding the fundamental building blocks and forces of the universe. Mathematically, the "decay and fission" algorithm is based on the principles of linear algebra and a clear definition of stability. It operates autonomously and requires no external inputs. The results achieved through physics-inspired methods are not only relevant in physics but also in mathematical research: They offer a fundamental and universally valid description of the complex, intertwined structures of the quantum vacua, representing a significant advance in mathematics.

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Journal Reference :

Antoine Bourget, Marcus Sperling, Zhenghao Zhong. Decay and Fission of Magnetic Quivers . Physical Review Letters , 2024; 132 (22) DOI: 10.1103/PhysRevLett.132.221603

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Nuh Gedik receives 2024 National Brown Investigator Award

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Nuh Gedik, MIT’s Donner Professor of Physics, has been named a 2024 Ross Brown Investigator by the Brown Institute for Basic Sciences at Caltech.

One of eight awarded mid-career faculty working on fundamental challenges in the physical sciences, Gedik will receive up to $2 million over five years.

Gedik will use the award to develop a new kind of microscopy that images electrons photo-emitted from a surface while also measuring their energy and momentum. This microscope will make femtosecond movies of electrons to study the fascinating properties of two-dimensional quantum materials.

Another awardee, professor of physics Andrea Young at the University of California Santa Barbara, was a 2011-14 Pappalardo Fellow at MIT in experimental condensed matter physics.

The Brown Institute for Basic Sciences at Caltech was established in 2023 through a $400-million gift from entrepreneur, philanthropist, and Caltech alumnus Ross M. Brown, to support fundamental research in chemistry and physics. Initially created as the Investigator Awards in 2020, the award supports the belief that "scientific discovery is a driving force in the improvement of the human condition," according to a news release from the Science Philanthropy Alliance.

A total of 13 investigators were recognized in the program's first three years. Now that the Brown Investigator Award has found a long-term home at Caltech, the intent is to recognize a minimum of eight investigators each year.

Other previous awardees with MIT connections include MIT professor of chemistry Mircea Dincă as well as physics alumni Waseem S. Bakr '05, '06, MNG '06 of Princeton University; David Hsieh of Caltech, who is another former Pappalardo Fellow; Munira Khalil PhD '04 and Mark Rudner PhD '08 of the University of Washington; and Tanya Zelevinsky ’99 of Columbia University.

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Police in Burlington, Vermont apologize to students for mock shooting demonstration

Police in Burlington, Vermont have apologized to a group of high school students who were shaken up by a role-playing presentation that involved a mock shooting .

The presentation took place Wednesday when about 20 students from Burlington High School's Year End Studies forensics class visited the Burlington Police Department's headquarters for a field trip, according to a statement from Russ Elek, spokesperson for the Burlington School District, to the VTDigger .

The news outlet, citing an email school officials sent parents and families of the students involved, reports that police reenacted a crime and students unexpectedly heard screaming and fake gunshots behind where they were seated.

The purpose of the presentation "was to make a point about how witness statements can be unreliable, and detectives wanted the event to be as realistic as possible," the VTDigger reports, citing an email written by interim principal Sabrina Westdijk and two teachers in attendance.

"First and foremost, the Burlington Police Department apologizes to any students in attendance who were upset by the specific scenario and crime scene portion of the presentation," the department said in a news release Thursday.

'About as real-life as you can get'

The department stated that the role-playing scenario involved "three department personnel simulating a robbery scenario" and was not directed toward any students or faculty. Police also said the district contacted them in April about conducting the presentation after a "previous successful presentation" between the programs in the fall of 2023.

According to Elek, school officials "didn't realize the presentation would happen without warning," a claim the Burlington Police Department disputes, according to the VTDigger.

The Burlington Police Department said it communicated details of the scenarios to the school program's staff in May, including saying that the training incident would involve "using fake firearms in a mock shooting." The department said it told program staff the presentation "is about as real life as you can get, and is certainly exactly the sort of thing we deal with most frequently."

'A reflective growth opportunity'

Police said the program staff responded, "I think these students will be fine with the simulation. We will give a heads up to parents and students."

The police department said in the statement it will meet with students and staff Friday to discuss the presentation and its impact.

"We hope that this can be a reflective growth opportunity for all parties," the department said in the statement.

Gabe Hauari is a national trending news reporter at USA TODAY. You can follow him on X @GabeHauari or email him at [email protected]

James Analytis Awarded a 2024 National Brown Investigator Award

Photo of Physic Chair James Analytis amid research equipment

May 29, 2024

The Brown Institute for Basic Sciences at Caltech today announced the 2024 class of Brown Investigators. The cohort, the first selected through the newly formed Brown Institute for Basic Sciences, comprises eight distinguished mid-career faculty working on fundamental challenges in the physical sciences, particularly those with potential long-term practical applications in chemistry and physics. Each investigator will receive up to $2 million over five years.

James Analytis is one of the eight faculty to be honored. He is awarded "to develop new methods using focused ion beams to change the chemical composition of two-dimensional materials with nanometer resolution, potentially giving rise to new electronic states, including superconductivity". Professor Analytis is the Charles Kittel Chair in Condensed Matter Physics at UC Berkeley.

The Brown Institute for basic Sciences at Caltech was established in 2023 through a $400-million gift to the Institute from entrepreneur, philanthropist, and alumnus Ross M. Brown (BS '56, MS '57).

Caltech and Brown share a common purpose: advancing fundamental science discoveries with the potential to seed breakthroughs that benefit society.

Click here for a full list of 2024 National Brown Investigators

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Nuh Gedik, MIT's Donner Professor of Physics, has been named a 2024 Ross Brown Investigator by the Brown Institute for Basic Sciences at Caltech. One of eight awarded mid-career faculty working on fundamental challenges in the physical sciences, Gedik will receive up to $2 million over five years.
Share slides in Microsoft Teams meetings with PowerPoint Live
Present your slides. If you're already in a Teams meeting, select Share and then under the PowerPoint Live section, choose the PowerPoint file you're wanting to present. If you don't see the file in the list, select Browse OneDrive or Browse my computer. If your presentation is already open in PowerPoint for Windows or Mac, go to the file ...
Burlington police apologizes to students for mock shooting
0:07. 0:45. Police in Burlington, Vermont have apologized to a group of high school students who were shaken up by a role-playing presentation that involved a mock shooting. The presentation took ...
James Analytis Awarded a 2024 National Brown Investigator Award
James Analytis is one of the eight faculty to be honored. He is awarded "to develop new methods using focused ion beams to change the chemical composition of two-dimensional materials with nanometer resolution, potentially giving rise to new electronic states, including superconductivity". Professor Analytis is the Charles Kittel Chair in ...

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