presentation topics for modern physics

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
LASERS
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
Gauss’ Law
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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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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310+ Physics Seminar and Presentation Topics

Hello friends, this article offers a comprehensive list of 310 physics presentation topics, categorized into subcategories such as poster presentations, interesting topics, modern physics, seminar topics for class 12 and college students, best seminar topics, and interesting seminar topics 2024.

Table of Contents

Also See: Chemistry Seminar topics

310+ Physics Seminar and Presentation Topics 2024

Whether you’re a student, educator, or enthusiast, these topics will help you craft compelling presentations that capture your audience’s interest and convey complex scientific concepts in an accessible manner.

Physics Poster Presentation Topics

The Photoelectric Effect
Quantum Entanglement
Dark Matter and Dark Energy
The Higgs Boson
Gravitational Waves
The Doppler Effect
Superconductivity
The Standard Model of Particle Physics
Plasma Physics
Nanophysics
String Theory
Black Hole Thermodynamics
Cosmic Microwave Background Radiation
The Fermi Paradox
The Double-Slit Experiment
Bose-Einstein Condensates
The Large Hadron Collider
The Weak Force
The Uncertainty Principle

Also See: Physics Project Topics

Interesting Physics Topics for Presentation

The Theory of Relativity
Time Dilation
Quantum Computing
Schrödinger’s Cat
The Multiverse Theory
Electromagnetic Waves
The Aurora Borealis
Solar Flares and Space Weather
Chaos Theory
The Science of Flight
The Physics of Sports
Light and Optics
Thermodynamics and Heat Transfer
Nuclear Fusion and Fission
Acoustic Levitation
The Physics of Climate Change
Magnetic Resonance Imaging (MRI)
The Physics of Musical Instruments
The Curie Temperature
The Physics of Car Crashes

Modern Physics Topics for Presentation

Quantum Field Theory
General Relativity and Gravitational Lensing
The Casimir Effect
The Many-Worlds Interpretation of Quantum Mechanics
Neutrino Oscillations
Quantum Teleportation
The Physics of Virtual Reality
Exoplanet Detection Methods
Quantum Cryptography
Topological Insulators
The Quantum Hall Effect
Photonics and Optical Computing
Quantum Dot Technology
The Holographic Principle
The AdS/CFT Correspondence
Quantum Gravity
The Physics of Black Holes
The Inflationary Universe
Advanced Nanomaterials
The Search for Supersymmetry

Also See: Best Pharmacy Presentation Topics for Students

Physics Seminar Topics for Class 12

Newton’s Laws of Motion
Kepler’s Laws of Planetary Motion
The Conservation of Momentum
Electromagnetic Induction
Simple Harmonic Motion
The Laws of Thermodynamics
The Structure of the Atom
The Electromagnetic Spectrum
Nuclear Reactions
Radioactivity and Half-Life
The Bohr Model of the Atom
Wave-Particle Duality
Coulomb’s Law
The Principle of Superposition
Kirchhoff’s Circuit Laws
The Van de Graaff Generator
The Physics of Satellites
Fluid Dynamics and Bernoulli’s Principle

Physics Seminar Topics for College Students

Quantum Mechanics and Its Applications
The Theory of General Relativity
Superconductors and Their Applications
The Physics of Lasers
The Hydrogen Atom in Quantum Mechanics
Quantum Entanglement and Information
The Physics of Semiconductors
Nuclear Magnetic Resonance (NMR)
The Dynamics of Nonlinear Systems
The Cosmic Microwave Background Radiation
The Search for Dark Matter
Advanced Topics in Thermodynamics
The Physics of Turbulence
The Quantum Zeno Effect
The Role of Symmetry in Physics
The Physics of Earthquakes
The Physics of Renewable Energy
The Physics of Space Travel
Advanced Topics in Electromagnetism

Also See: Project Topics for All Subjects and Classes

Best Physics Seminar Topics

Quantum Computing and Its Future
The Impact of Gravitational Waves
Advances in High-Energy Physics
The Mystery of Dark Energy
The Unification of Forces in Physics
The Role of Quantum Mechanics in Modern Technology
The Physics of Climate Change and Its Implications
The Search for the Theory of Everything
The Impact of Quantum Entanglement on Communication
The Future of Fusion Energy
The Physics of the Early Universe
The Role of Nanotechnology in Modern Physics
The Physics of Black Hole Mergers
The Role of Symmetry Breaking in Particle Physics
The Implications of the Higgs Boson Discovery
The Physics of Extreme Conditions
The Role of Quantum Mechanics in Cryptography
The Impact of Quantum Field Theory on Modern Physics
The Role of Physics in Understanding the Universe
The Future of Particle Accelerators

Interesting Physics Seminar Topics

The Physics of Superfluids
The Role of Chaos Theory in Predicting Weather
The Impact of Quantum Mechanics on Chemistry
The Physics of Time Travel
The Role of Entropy in the Universe
The Physics of Sound and Acoustics
The Role of Electromagnetism in Everyday Life
The Impact of Relativity on Modern Technology
The Physics of Light and Its Applications
The Role of Symmetry in the Universe
The Impact of Particle Physics on Medicine
The Physics of the Human Body
The Role of Quantum Mechanics in Understanding Biology
The Physics of Earth and Planetary Sciences
The Role of Physics in Understanding Natural Disasters
The Impact of Thermodynamics on Everyday Life
The Role of Quantum Mechanics in Understanding the Brain
The Physics of the Solar System
The Role of Physics in Understanding the Oceans
The Impact of Quantum Mechanics on Philosophy

Also See: English Project Topics for all Classes+ Mini Project

Advanced Physics Topics

Quantum Chromodynamics
The Renormalization Group
The Lamb Shift
Quantum Coherence and Decoherence
Advanced Particle Detector Technologies
Quantum Error Correction
The Sagnac Effect
The Penrose Interpretation of Quantum Mechanics
The Wheeler-DeWitt Equation
Quantum Logic Gates
Topological Quantum Computing
The Alcubierre Drive
The Twin Paradox in Special Relativity
Quantum Spin Liquids
The Einstein-Podolsky-Rosen Paradox
The Physical Basis of Information Theory
The Schrödinger Equation in Complex Systems
The Landauer Principle
The Bose-Hubbard Model
The Quantum Harmonic Oscillator

Historical Topics

The Development of Quantum Mechanics
The History of Relativity Theory
The Discovery of Electromagnetism
The Contributions of Isaac Newton
The Role of Marie Curie in Physics
The Manhattan Project and Its Impact
The History of Thermodynamics
The Discovery of the Electron
The Contributions of Richard Feynman
The History of the Periodic Table
The Development of Quantum Electrodynamics
The Discovery of the Neutron
The Role of Women in Physics
The History of Black Hole Theory
The Development of the Standard Model
The Discovery of the Cosmic Microwave Background
The History of Quantum Field Theory
The Contributions of Albert Einstein
The History of Nuclear Physics
The Development of Particle Accelerators

Also See: Best Project Topics for Commerce Students

Future Trends in Physics

The Future of Quantum Computing
Advancements in Particle Physics
The Future of Renewable Energy
The Role of AI in Physics Research
The Future of Space Exploration
Advancements in Medical Physics
The Future of Nanotechnology in Physics
The Role of Big Data in Physics
The Future of Climate Physics
The Impact of Quantum Technologies on Society
The Future of Fusion Energy Research
Advances in Gravitational Wave Detection
The Role of Physics in Developing New Materials
The Future of Theoretical Physics
The Impact of Interdisciplinary Research in Physics
The Future of Computational Physics
The Role of Physics in Addressing Global Challenges
Advances in Quantum Information Science
The Future of Experimental Physics
The Impact of Physics on Future Technologies

Applied Physics

The Physics of Renewable Energy Technologies
The Role of Physics in Medicine
The Physics of Materials Science
The Impact of Physics on Engineering
The Role of Physics in Computer Science
The Physics of Everyday Objects
The Impact of Physics on Transportation
The Role of Physics in Environmental Science
The Physics of Building and Construction
The Impact of Physics on Telecommunications
The Role of Physics in the Automotive Industry
The Physics of Aerospace Engineering
The Impact of Physics on Electronics
The Role of Physics in Energy Production
The Physics of Agriculture
The Impact of Physics on Sports Science
The Role of Physics in Space Exploration Technologies
The Physics of Water and Hydrology
The Impact of Physics on Manufacturing
The Role of Physics in Food Science

Also See: Electrical Seminar Topics

Specialized Topics

The Physics of Plasma
The Role of Quantum Mechanics in Superconductivity
The Physics of Crystal Structures
The Impact of Quantum Mechanics on Solid State Physics
The Role of Physics in Chemical Reactions
The Physics of Electromagnetic Fields
The Impact of Physics on Optics and Photonics
The Role of Physics in Geophysics
The Physics of Quantum Dots
The Impact of Physics on Condensed Matter
The Role of Physics in Soft Matter Science
The Physics of Magnetism
The Impact of Physics on Spintronics
The Role of Physics in Metamaterials
The Physics of Thermoelectric Materials
The Impact of Physics on Liquid Crystals
The Role of Physics in Ferroelectricity
The Physics of Superfluidity
The Impact of Physics on Quantum Thermodynamics
The Role of Physics in Nonlinear Dynamics

Choosing the right physics presentation topic can enhance your public speaking experience and effectively convey your message. Use this extensive list to find the perfect topic that aligns with your interests and audience needs. Please share it with your friends and dear ones.

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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.

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Introduction to modern physics

Thermodynamics, electromagnetism, applied physics, modern physics, related posts:.

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Introduction to selected topics in modern physics, physics 111.

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Introduction to the Basic Concepts of Modern Physics

Special Relativity, Quantum and Statistical Physics

© 2016
Latest edition
Carlo Maria Becchi 0 ,
Massimo D'Elia 1

University of Genoa, Genova, Italy

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Department of Physics, University of Pisa, Pisa, Italy

New to this edition is a more detailed discussion on Lorentz transformations, a deeper treatment of quantum mechanics, and a closer comparison of statistical mechanics in classical and in quantum physics
Includes more worked examples of relevant applications as well as solved problems
Provides a rigorous and self-contained presentation within the simplest theoretical framework and using elementary mathematical tools
Includes supplementary material: sn.pub/extras

Part of the book series: Undergraduate Lecture Notes in Physics (ULNP)

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About this book

Quantum Gravity: The View From Particle Physics

Classical Mechanics

The Many Problems with Quantum Mechanics from the Earliest Days on and How the Theory of Quantum Mechanics on Phase Space Addresses Them

Gibbs Statistical Methods
Relativistic Kinematics
Schrödinger's Formulation of Quantum Mechanics
Solved Problems in Modern Physics
Space-Time Relativity
Statistical Mechanics in Classical Physics
Statistical Mechanics in Quantum Physics
Undergraduate Textbook on Modern Physics Theory
Undergraduate Textbook on Special Relativity

Table of contents (3 chapters)

Front matter, introduction to special relativity.

Carlo Maria Becchi, Massimo D’Elia

Introduction to Quantum Physics

Introduction to the statistical theory of matter, back matter, authors and affiliations.

Carlo Maria Becchi

Massimo D'Elia

About the authors

Bibliographic information.

Book Title : Introduction to the Basic Concepts of Modern Physics

Book Subtitle : Special Relativity, Quantum and Statistical Physics

Authors : Carlo Maria Becchi, Massimo D'Elia

Series Title : Undergraduate Lecture Notes in Physics

DOI : https://doi.org/10.1007/978-3-319-20630-1

Publisher : Springer Cham

eBook Packages : Physics and Astronomy , Physics and Astronomy (R0)

Softcover ISBN : 978-3-319-20629-5 Published: 11 September 2015

eBook ISBN : 978-3-319-20630-1 Published: 28 August 2015

Series ISSN : 2192-4791

Series E-ISSN : 2192-4805

Edition Number : 3

Number of Pages : X, 243

Number of Illustrations : 9 b/w illustrations

Topics : Classical and Quantum Gravitation, Relativity Theory , Quantum Physics , Complex Systems , Thermodynamics , Mathematical Physics , Statistical Physics and Dynamical Systems

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Modern Physics

Physics is a natural science that is based on experiments, measurements, and mathematical analysis. Its purpose is to find the quantitative physical laws for everything from the Nanoworld to the planets. A branch of science which is dealing with the interaction of matter and energy is popularly known as physics. There are two major branches of Physics. These are Classical Physics and Modern Physics.

Modern physics is that branch of physics that deals with the post-Newtonian concepts in the areas of physics. It is having its base on the two major breakthroughs of the twentieth century. These are Relativity and Quantum Mechanics . Modern physics mainly involves the advanced description of nature through some theories which were different from classical Physics. These are involving the elements of quantum mechanics and Einsteinian relativity. Albert Einstein is popular as the father of modern physics.

Introduction to Modern Physics

Modern physics is based on the two major inventions of the early 20th century. These are relativity and quantum mechanics. This kind of Physics is based on what was known before then, i.e. Newton’s laws, Maxwell’s equations, thermodynamics and termed as classical physics.

Modern physics is presenting the foundations and frontiers of today’s physics. It is focusing on the domains like quantum mechanics; applications in atomic, nuclear, particle, and also the condensed-matter physics. Mainly it includes the special relativity, relativistic quantum mechanics, Dirac equation and the Feynman diagrams, quantum fields with general relativity. The aim of modern physics is to cover these topics in sufficient depth.

Topics in Modern Physics

Various topics which form the core to the foundation of modern physics are:

Atomic theory and atomic model
Black-body radiation
Franck–Hertz experiment
Geiger–Marsden experiment i.e. Rutherford’s experiment
Gravitational lensing
Michelson–Morley experiment
Photoelectric effect
Quantum thermodynamics
Radioactive phenomena in general
Perihelion precession of Mercury
Stern–Gerlach experiment
Wave-particle duality
Thermodynamics. Heat and temperature.
Vibrations and Waves Phenomena
Quantum Mechanics.

Important Discoveries in Modern Physics

Several experiments have marked the history and development of Modern Physics. Among these, we may mention those who provided us with a deeper understanding of the structure of matter and atoms. Some such examples of these important discoveries are as given below:

In the year 1895, Wilhelm Röntgen discovered the existence of X-rays. It is an invisible type of extremely penetrating radiation.
After a few years in the year 1900, the German physicist Max Planck proposed that the energy-charged by the electromagnetic field and having quantized values. It is the integer multiples of a minimum and constant amount.
In the year 1905, through his theory of relativity, Albert Einstein explained and showed that references which move at very high speeds. This speed was close to the speed of light propagation, experience the passage of time and the measurement of distances in different ways.
In the year 1913, Niels Bohr proposed that the energy levels of electrons scattered around atomic nuclei are quantized. It means, their energy is given by an integer multiple of a minimum value.
In the year 1924, the wave-particle duality, which was established by physicist Louis De’Broglie, showed that anybody can behave like a wave.
In the year 1926, Quantum Mechanics appeared. It was the result of the work of physicists like Werner Heisenberg and Erwin Schröedinger.

Thus, modern physics was able to explore the nature of the microscopic world and the great relativistic speeds. It also provides valuable explanations for various physical phenomena that were, until then, misunderstood.

FAQs about Modern Physics

Q.1: Why is modern physics such important?

Answer: The term Physics describes how the natural world works with the applied mathematical formulas. Chemistry is essentially being applied to physics as well as biology is essentially applied chemistry. Physical theories are responsible for the changes in electronics giving advances in modern computers as well as electronic media.

Q.2: What is the most difficult in physics?

Answer: The most difficult concept in physics is undoubtedly the unification of the theory of gravity with the theories concerning matter and the other three fundamental forces. These forces are like electromagnetism and nuclear forces. At the later stage, it is constituting the Standard Model.

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Modern Physics

Updated on
Apr 29, 2023

Physics is a prominent field of science that is filled with a number of remarkable and astonishing experiments, facts and discoveries which have been life-changing contributions. Modern Physics is a subfield of Physics and consists of a variety of ground-breaking inventions and concepts. Dealing with post-Newtonian concepts, Modern Physics is based on two major milestones of the 20th century, i.e. Relativity and Quantum Mechanics . Oftentimes students preparing for class 12th boards or competitive exams like JEE Mains , JEE Advanced etc have to cover this topic. Here is a blog that aims to elucidate important topics, formulas and concepts of modern physics.

Must Read: Basic Physics Formulas & Notes for Competitive Exams

This Blog Includes:

Modern physics: topics , modern physics: formula , effect of collector’s potential on photoelectric current , laws of photoelectric effect, bohr’s atomic model , laws of radioactivity , important discoveries in modern physics.

Being a vital part of the physics syllabus for Class 12 , modern physics consists of a variety of foundational topics and some of these have been mentioned below:

Black-Body Radiation
Atomic Theory and the Evolution of the Atomic Model in General
Michelson- Morley Experiment
Geiger-Marsden Experiment (Rutherford’s Experiment)
Quantum Thermodynamics
Photoelectric Effect
Radioactive Phenomena in General
Wave-Particle Duality
Perihelion Precession of Mercury
Stern-Gerlach Experiment
Frank-Hertz Experiment
Gravitational Lensing

Check Out: Class 12th Physics Electrostatics Notes

In order to cover different topics of modern physics, it is important to go through the formulas which you must remember as they will help you solve numerical problems in competitive exams. There are different formulas required to crack derivations and concept-based questions. Here are the major formulas of Modern Physics that you must know about:


	E = mc
	hf=Φ+Ek

	1/λ = RZ (1/n – 1/n )

	Δl=Δl01–√−(vc)2
	V_{AB} = V_{A}– V_{B}
	t = t /(1-v /c )

You might be interested in: Physics Syllabus for Class 12

Modern Physics: Notes

While gearing up for engineering entrance exams or any other rigorous competitive exams, you must learn about the basic core concepts of modern physics. Making notes while practising a subject will also help you in the last-moment revision. Mentioned below are important notes for this topic:

Current for zero value potential reflects that the electrons are ejected from the given surface of the emitter with random energy.
Due to a change in potential, the electrons gradually changing in number reflects that the ejected electrons possess a variety of velocities.
For a negative potential of the collector, the current is reduced to zero indicating that is some upper limit of the energy that electrons emit.
The stopping potential does not depend on the intensity of the light.
The current is dependent on the intensity of the incident light.
Referred to as an instantaneous process, the photoelectric effect is explained as a phenomenon which occurs when electrons are emitted from a metal surface when the light of an adequate frequency is incident upon.
The photoelectric current is independent of the frequency of light and is directly proportional to the intensity of light.
The maximum velocity of the electrons (stopping potential) is dependent on the frequency of the incident light.
Threshold Frequency is the minimum frequency below which the emission of electrons stops.
The nucleus which is the central part of the atom contains a positive charge and almost the entire mass of the atom . Also, the electrons revolve around the nucleus in a fixed circular orbit.
Stationery Orbits/Permitted Orbits are the fixed circular paths in which electron revolves without radiating any energy.
The electrons possess an angular momentum (L= mvr) while revolving in the stationery which is an integral multiple of h/2𝝿

L= mvr= nh/2𝝿

In the above-mentioned formula, h is Planck’s constant and n is an integer

While moving, the electron can change their orbits. When they absorb the energy they move into a higher other orbit and the emission of energy takes place whenever an electron moves into a lower orbit. If f is the frequency of radiant energy,

Radioactivity takes place due to the disintegration of a nucleus
The law of conservation of charge is also interconnected with the laws of radioactivity.
External conditions like Temperature, Pressure etc. do not affect the rate of disintegration.
Each of the product disintegrations is a new element which has chemical and physical properties distinct from that of the parent atom.

Take a look at the Top 10 Toughest Exams in India

There have been a number of different experiments which have marked the history of Modern Physics. There are several that help in providing a deeper understanding of the structure of matter and atoms. A few examples of these discoveries are:

Wilhelm Röntgen in 1895 discovered the existence of X-rays .
Max Planck was a German physicist. In the year 1900, he proposed that the energy charged by the electromagnetic field can be quantified.
In 1905, Albert Einstein , through the theory of relativity explained and showed that references move at very high speeds. That speed is close to the speed of light propagation.

Also, check out 15 Must Read Bestselling Quantum Physics Books

Particle-Wave Duality, Atomic Theory, Thermodynamics, and Oscillations and Waves are among the topics covered in class 11. Modern Physics chapters in class 12 are as follows: There is a photoelectric effect.

It mostly consists of special relativity, relativistic quantum mechanics, the Dirac equation and Feynman diagrams, quantum fields, and general relativity. The goal of modern physics is to cover these issues thoroughly.

It depends on the student; some of the most difficult and conceptual parts of Physics require time and patience to learn.

Hopefully, these notes and formulas of modern physics have helped you in getting a stronghold over the concept. Confused about how to make the right career choice after class 12th? Book an online session with our Leverage Edu experts and let us help in making an informed decision to soar towards your dream career!

Medha Mehta

Medha is someone who is very passionate about reading. 250 is the highest number of books she has gone through in a year. If not reading, she can be found writing about all the random things in the world. Has a massive sweet tooth but can't cook/bake to save her life.

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is an updated, accessible presentation of modern physics available. The book is intended to be used in a one-semester course on modern physics for students who have already had basic physics and calculus courses. The balance of the book leans more toward ideas than experimental methods and practical applications because the beginning student is better served by a conceptual framework than by a mass of details. The sequence of topics follows a logical, rather than strictly historical, order. Relativity and quantum ideas are considered first to provide a framework for understanding the physics of atoms and nuclei. The theory of the atom is then developed, and followed by a discussion of the properties of aggregates of atoms, which includes a look at statistical mechanics. Finally atomic nuclei and elementary particles are examined.

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Modern Physics

Sep 07, 2014

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Modern Physics. Waves and Optics Special relativity Quantum mechanics Wave, particles, and weirdness Atoms, molecules, and nuclei Particle physics General relativity and Cosmology Revolutions in other fields. Prof. Rick Trebino Georgia Tech www.physics.gatech.edu/frog/lectures.

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Modern Physics Waves and Optics Special relativity Quantum mechanics Wave, particles, and weirdness Atoms, molecules, and nuclei Particle physics General relativity and Cosmology Revolutions in other fields Prof. Rick Trebino Georgia Tech www.physics.gatech.edu/frog/lectures

Modern Physics is 20th century physics. By 1900, physicists thought they had it all together. They had Physics I and II (“classical physics”) down and thought that that was about it. All that remained was to dot the i’s and cross the t’s. Scanning-tunneling microscope image of individual atoms Man, were they in for a surprise! Several of them actually. Modern physics is the story of these surprises (quantum mechanics and special and general relativity), surprises—revolutions, actually—that have changed the world beyond all recognition. The purpose of this course is to introduce you to all this fun new stuff.

The Beginnings of Modern Physics • These new discoveries and the many resulting complications required a massive revision of fundamental physical assumptions and theories. • The introduction (~1905) of the modern theories of special relativity and quantum mechanics became the starting point of this most fascinating revision. General relativity (~1915) continued it. c Special relativity Speed General relativity Quantum mechanics 19th-century physics 0 0 Huge Size

In 1900, it was well-known that the universe contained only particles. Waves, on the other hand, were simply collective motions of particles—a much less fundamental phenomenon. A human wave

We’ll begin our story with the age-old subjects of waves and optics, which hold the key to it all. “I procured me a triangular glass prism to try therewith the celebrated phenomena of colours.” Isaac Newton, 1665 Isaac Newton (1642-1727) Is light a particle or a wave? After remaining ambivalent for many years, Newton concluded that light was made up of particles.

While particles travel in straight lines, waves bend around corners. Ocean waves passing through wave-breaks in Tel Aviv, Israel. This is diffraction, and it occurs for all types of waves.

Light passing through a square hole bends around the edges. Thomas Young (1773-1829) Light pattern after passing through a small square hole In 1803, Thomas Young showed that light diffracted precisely as predicted by Fresnel’s wave theory.

where is the electric field, is the magnetic field, and c is the velocity of light. In the mid-19th century, Maxwell unified electricity and magnetism into a single force with his now famous equations. In free space: James Clerk Maxwell (1831-1879)

y x Electric field (E) Magnetic field (B) Wavelength (l) z In addition, Maxwell showed that light is an electromagnetic wave. • The electric (E) and magnetic (B) fields are in phase. • And the electric field, the magnetic field, and the propagation direction are all perpendicular. Different wavelengths correspond to different colors, many of which we can’t see. And the frequency (w) of a wave is (2p times) the rate at which the peaks pass by.

But exactly what was waving? • It seemed that electromagnetic waves could propagate through empty space! Indeed, precisely what was electromagnetically waving was unknown at the time. Scientists decided to call itaetherand figure out what it was later.

Waves also interfere. The color you see is the one for which the light reflected from the front and back of the bubble surface are in phase. By the mid-19th century, light was well-known to be a wave.

The Michelson Interferometer Input beam L2 • The Michelson Interferometer deliberately interferes two beams and so yields a sinusoidal output intensity vs. the difference in path lengths. Output beam Mirror L1 Beam- splitter Delay Mirror Output beam intensity vs. relative path length I l DL = 2(L2 – L1)

Michelson & Morley • In 1887 Michelson and Morley attempted simply to measure the earth's velocity with respect to the aether and found it always to be zero—no matter which direction the earth was moving—effectively disproving the existence of the aether and providing a great crack in the foun-dations of physics. Albert Michelson (1852-1931) Edward Morley (1838-1923)

In 1905, Einstein had a very good year. That year, Einstein explained Michelson’s and Morley’s experiment: he realized that light didn’t need a medium and was a property of free space. It’s a wave—but not collective motion of particles! And it has the odd property that it travels at the same velocity no matter what speed you’re going. This is Special Relativity. Oh, and he graduated from grad school that year, too. Albert Einstein (1879-1955)

y y’ x z x’ z’ Before Special Relativity One frame moving at velocity v with respect to another Basically, this seems so obvious that we almost shouldn’t even have to say it. Unfortunately, it’s wrong.

y y’ x z x’ z’ With Special Relativity The Lorentz transformations follow directly from the constant-speed-of-light assumption and are the correct way to transform from one frame to the other. They yield the speed of light is all frames and are NOT at all obvious! Lorentz himself didn’t believe them.

Relativistic and Classical Kinetic Energies K = ½ mv2 You cannot exceed the speed of light. It’s the law. v/c You need an infinite amount of energy to go the speed of light…

Measurements of time confirm Special Relativity • Two airplanes traveled east and west around Earth as it rotated. Atomic clocks on the airplanes were compared with similar clocks kept at the observatory to show that the moving clocks in the airplanes ran slower. In Special Relativity, time passes at a rate that depends on your velocity.

Blackbody Radiation • When matter is heated, it not only absorbs light, but it also emits it. • A blackbody is a medium that’s black when it’s cool and so can absorb and emit all colors. Blackbodies are interesting because their emitted light spectra are independent of the material and depend only on their temperature.

The Ultraviolet Catastrophe • In 1900, Lord Rayleigh used the classical theories of electromagnetism and thermodynamics to show that the blackbody spectrum should be: UV Visible IR Rayleigh-Jeans Formula This worked at longer wavelengths but deviated badly at short ones. This problem became known as the ultraviolet catastrophe and was one of many effects that classical physics couldn’t explain.

Shortly afterward, Max Planck found that he could obtain the correct blackbody result if light was actually a particle. where h is a constant now known as Planck’s constant. But, of course, he didn’t really believe such a crazy idea. No one else did either. Max Planck(1858–1947)

Photo-electric Effect: Classical Theory Illuminate a surface with light. Look at the electrons that emerge. Initial observations by Heinrich Hertz 1887 Classically, the kinetic energy (K) of the electrons should increase with the light intensity and not depend on the light frequency (w).

a Electron kinetic energy K Light frequency w Photo-electric effect observations • The actual kinetic energy of the electrons is independent of the light intensity. • The kinetic energy of the electrons, for a given emitting material, actually depends only on the frequency of the light (w). • There was also a threshold frequency of the light, below which no electrons were ejected. No one had any idea how this could happen.

In 1905, Einstein decided Planck wasn’t crazy. Einstein explained the photoelectric effect by requiring that light be composed of particles of energy ħw, where ħ = h/2π, and w is the frequency. Energy after = Energy before Electron kinetic energy Photon energy Electron potential energy to be overcome before escaping. So light is simultaneously a wave and a particle! We call light particles photons.

Indeed, it’s now easy to see that light also behaves like a particle. • Photographs taken in dimmer light look grainier. Very very dim Very dim Dim Bright Very bright Very very bright When we detect very weak light, we find that it’s made up of particles—photons.

19th-century scientists also could not explain spectra. Wavelength

The planetary model for the atom was also a problem. • From classical electromagnetic theory, an accelerated electric charge radiates energy (electromagnetic radiation), which means that its energy must decrease. So the radius of its orbit around the nucleus must decrease. Why doesn’t the electron crash into the nucleus?

n = 1 n = 2 n = 3 Bohr’s quantization condition was a fix. • Bohr’s hydrogen-atom model assumed that the angular momentum of the electron is an integral multiple of ħ. Niels Bohr (1885-1962) The electron orbit could only have certain discrete radii, and it could make transitions between these “stationary states,” emitting or absorbing energy corresponding to the energy difference between the two states.

Bohr’s model worked for the Hydrogen atom. It explained Hydrogen’s emission and absorption spectra. But it didn’t work for other atoms.

Fourier decomposing functions plays a big role in physics. a1sin(t) • Here, we write a square wave as a sum of sine waves of different frequencies. a3sin(3t) Fourier developed the Fourier transform to model heat-flow problems. a5sin(5t) Joseph Fourier 1768 - 1830

The Fourier transform is one of the most important equations in science. • It converts a function of time to one of frequency: and converting back uses almost the same formula: The spectrum of a wave is given by:

w t w t w t F(w) f(t) The Uncertainty Principle is a simple classical property of the Fourier transform. Shortpulse Medium-lengthpulse If Dt is the width of a wave in time, and Dw is its spectral width, then: Longpulse This relation will play an important role in modern physics!

If a light-wave also acted like a particle, why shouldn’t matter-particles also act like waves? • In his thesis in 1923, Prince Louis V. de Broglie suggested that mass particles should have wave properties similar to those of light. The wavelength of a matter wave is called the de Broglie wavelength: where h = Planck’s constant and p is the particle’s momentum. where E is the particle’s energy. They would also have frequency: And the mass particles would be subject to their own Uncertainty Principle!

The Schrödinger Equation At about the same time, Schrödinger introduced his Wave Equation, which nicely explained atoms and their properties and is the fundamental equation of Quantum Mechanics. For a particle moving in a potential V in one dimension, it’s: Erwin Schrödinger (1887-1961) And Y is called the particle’s wave function. where:

What on earth is Y? The probability P(x) dx of a particle being between x and x + dxis given by the equation: The probability of the particle being between x1 and x2 is given by

Y yields probability distribution functions The probability density for the hydrogen atom for three different electron states.

Quantum theory explains the Periodic Table.

Molecules and solids It’s far too difficult to solve the Schrödinger Equation for molecules and solids, so approximation methods must be used. Fortunately, some general ideas have emerged.

Quantum mechanics is essential to understand semiconductors. Essentially all modern technology is a direct result of semiconductors and so is due to quantum mechanics. Economists estimate that quantum mechanics is responsible for ~80% of the entire US economy.

Nuclear Physics The nucleus of an atom is made up of positively charged protons and electrically neutral neutrons. So there’s no negative charge! How can a nucleus hold together? The strong force!

Nuclear Reactions Nuclear fission is the breaking apart of a heavy nucleus, which releases much energy. Nuclear fusion is the combining together of two light nuclei, which also releases much energy.

Elementary Particle Physics But, if nuclei are made up of protons and neutrons, what are protons and neutrons made of? Physicists have discovered a zoo of elementary particles, including quarks of 1/3 the charge of a proton. A Feynman diagram indicating the exchange of a pion (Yukawa’s meson) between a neutron and a proton.

While there were clearly some problems in 19th-century physics, everyone remained happy with Newton’s Law of Gravitation.Except Einstein. Einstein was also unsatisfied with his Theory of Special Relativity; it didn’t include acceleration. And because acceleration seemed similar to gravity, in 1915 he lost interest in the quantum mechanical revolution he had begun, and decided to pursue a geometrical theory of gravity, in which acceleration and gravity were equivalent.

General Relativity and the Curvature of Space • Einstein considered the possibility that the effect of mass (i.e., gravity) was to curve space. • At the time, no one thought that this was a good idea. So if space-time is not flat, then the apparent straight line path of light will actually be curved.

In a 1919 eclipse, light from a star was indeed bent by the sun, causing it to appear displaced. The verification of GR was a sensation. Einstein’s theory predicted a deflection of 1.75 seconds of arc, and two measurements found 1.98 ± 0.16 and 1.61 ± 0.40 seconds. Many more experiments, using starlight and radio waves from quasars, have confirmed Einstein’s predictions about the bending of light with increasing accuracy.

Gravitational lensing by galaxies When light from a distant object like a quasar passes by a nearby galaxy on its way to us on Earth, the light can be bent multiple times as it passes in different directions around the galaxy. The Cosmic Horseshoe

General Relativity also predicts Black Holes • While a star is burning, the heat and pressure produced by the thermonuclear reactions balance its gravity. When the star’s fuel is depleted, gravity dominates. The star’s mass can collapse into a black hole that warps space-time enough to not allow light to escape. A collapsing star greater than 3 solar masses will collapse to a black hole. Karl Schwarzschild determined the radius of a black hole and known as the event horizon.

Closed Open Flat GR also describes the large-scale structure of the universe. The large-scale shape of the universe is determined by its density, r. W0≡r / rcrit where rcrit = is the critical density for which the universe is flat.

The revolutions in physics inspired revolutions in other fields, too. Fields like chemistry, engineering, and biology necessarily also underwent revolutions because physics is their basis. And mathematics also began to see flaws in its fundamental foundations. And the revolutions in physics spurred revolutions in art, music, architecture, and psychology and even changed the way the average person saw the world. Bertrand Russell (1872-1970)

{ } the empty set Weirdness in mathematics: Russell’s Paradox (1901) Consider a set that contains itself. Example: { , , … } { { }, } {{ }} the set containing the empty set and the set containing the empty set Next consider the set of all sets that contain themselves. Okay. Now consider the set of all sets that don’t contain themselves. Does this last set contain itself? If it doesn’t, then it does. But if it does, then it doesn’t. Because set theory is the basis of all mathematics (and numbers!), this fundamental paradox is a serious crack in the foundations of mathematics.

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200 Interesting Physics Seminar and Powerpoint Presentation Topics
200 Interesting Physics Seminar and Powerpoint ...
Top 101 Physics Topics For Presentation [Updated]
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. Top 101 Physics Topics For Presentation. Newton's Laws of Motion; Conservation of Energy; Conservation of Momentum
310+ Physics Seminar and Presentation Topics
Sumit Thakur July 26, 2024 310+ Physics Seminar and Presentation Topics 2024-07-26T11:01:14+00:00 Hello friends, this article offers a comprehensive list of 310 physics presentation topics, categorized into subcategories such as poster presentations, interesting topics, modern physics, seminar topics for class 12 and college students, best ...
200 Interesting Physics Seminar and Powerpoint Presentation Topics
This document lists 200 potential topics for physics seminar and powerpoint presentations. Some example topics included are special and general relativity, time dilation, physics in sports, anti-gravity wheels, renewable energy sources like wind and solar power, particle physics topics like cyclotrons and synchrotrons, models of the atom, evidence for wave-particle duality, radio waves ...
100+ Physics Seminar Topics for Students
100+ Physics Seminar Topics for Students. 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.
PDF Introduction to Modern Physics
Modern Physics a)Two Basic Ideas: -Time and space are not absolutes. -Particles behave like waves and waves behave like particles. b)Two Branches: -Special Relativity -Quantum Mechanics c)With an understanding of these branches, we can then explore areas of modern physics such as superconductivity, modern optics, nuclear physics, particle ...
Introduction to modern physics
It covers topics such as quantum mechanics, relativity, electromagnetism, optics, and other key areas of modern physics. The goal of the site is to share engaging articles, news, and educational materials that illuminate complex physics concepts for the general public and open up discussion about how modern physics shapes our understanding of ...
Introduction to Selected Topics in Modern Physics
PHYSICS 111. Introduction to selected topics in Modern Physics explores some major sub-disciplines of modern physics and their (potential) applications in industry/research. Students learn why society invests so much in physics and what it gets in return, from the origins of electronic devices and novel materials tackling the energy crisis to ...
Free Physics templates for Google Slides and PowerPoint
Free Physics templates for Google Slides and PowerPoint
Introduction to the Basic Concepts of Modern Physics
This is the third edition of a well-received textbook on modern physics theory. This book provides an elementary but rigorous and self-contained presentation of the simplest theoretical framework that will meet the needs of undergraduate students. ... The presentation concerns mainly one-dimensional problems, but some three-dimensional examples ...
What is Modern Physics: Introduction, Important Discoveries ...
Modern Physics. Physics is a natural science that is based on experiments, measurements, and mathematical analysis. Its purpose is to find the quantitative physical laws for everything from the Nanoworld to the planets. A branch of science which is dealing with the interaction of matter and energy is popularly known as physics.
Teacher Presentation Pack for Physics
The Teacher Presentation Pack can be purchased for $40. School Purchase Orders are accepted. See our Purchase page for information about Purchase Orders. The slide decks are PowerPoint slide decks filled with graphics and short annotations. They are slightly revised (and improved) versions of the slide decks used in the video presentations at ...
PHYSICS 401 Some Suggested topics
A plasma is an ionized gas consisting of free electrons and ions. Use a classical electron model to examine dispersion and conductivity in a plasma. Or present and explain some neat application of plasma physics. Transmission Lines. Explain the theory and operating principles of transmission lines. Dispersion.
Modern Physics
Explore the important topics of modern physics. Discover what modern physics is and understand its various branches. Find out the applications of modern physics. Updated: 06/14/2023 ...
Modern Physics: Formulas, Topics, Examples & Concepts
Physics is a prominent field of science that is filled with a number of remarkable and astonishing experiments, facts and discoveries which have been life-changing contributions. Modern Physics is a subfield of Physics and consists of a variety of ground-breaking inventions and concepts. Dealing with post-Newtonian concepts, Modern Physics is based on two major milestones of the 20th century ...
Physics Powerpoints
Physics PowerPoints
Concepts of Modern Physics Information Center:
Concepts of Modern Physics is an updated, accessible presentation of modern physics available. The book is intended to be used in a one-semester course on modern physics for students who have already had basic physics and calculus courses. The balance of the book leans more toward ideas than experimental methods and practical applications ...
Physics Powerpoint Templates and Google Slides Themes
Physics Powerpoint Templates and Google Slides ...
PDF Modern Physics (PHY 3305)
basic ideas in the topic, motivate their value or interest, and talk broadly about the subject. The second half of your presentation should be more detailed, more like a seminar to an informed group (e.g. students who are taking "Modern Physics"), so that the audience knows you have depth as well as breadth in the subject. Sources
Top 50 Physics Topics For Students In 2022
Modern Physics Topics. Advancements in physics are astounding. You have plenty of things to write about. Here are some examples of modern physics topics: ... Whether you need some physics topics for presentation or you need some great theoretical physics topics, our list will help you immensely. Why waste hours of work searching for a decent ...
PPT
Modern Physics. Modern Physics. Welcome to Modern Physics!. Now that you've gotten the boring physics courses out of the way, we can do the fun stuff! Modern Physics will take you from the 19 th century up to the 21 st ! It's all the ideas that have changed the world!. Bedtime reading. 379 views • 10 slides
Free Physics templates for Google Slides and PowerPoint
Download the "Energy and Waves - Physics - 11th Grade" presentation for PowerPoint or Google Slides. High school students are approaching adulthood, and therefore, this template's design reflects the mature nature of their education. Customize the well-defined sections, integrate multimedia and interactive elements and allow space for ...

200 Interesting Physics Seminar and Powerpoint Presentation Topics

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Introduction to modern physics

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Introduction to the Basic Concepts of Modern Physics

University of Genoa, Genova, Italy

Department of Physics, University of Pisa, Pisa, Italy

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Quantum Gravity: The View From Particle Physics

Classical Mechanics

The Many Problems with Quantum Mechanics from the Earliest Days on and How the Theory of Quantum Mechanics on Phase Space Addresses Them

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