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:

  1. 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.

  2. 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.

  3. 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.

  4. 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

Title (click to download)Submitted by
acceleration or equilibrium practice quizBarbara Vanatta
AccelerationAccelerationCorina Waage
AccelerationBarbara Vanatta
Direction of acceleration due to gravityBarbara Vanatta
aircraft classificationsAntonio
Altitude of a rocket- mass vs initial speedBarbara Vanatta
Atmospheric pressure
balanced forces pptDebbie Durack
Balanced ForcesR Tyler
basic electricityWilliam Allan
basic electricity2William Allan
basic electronicsWilliam Allan
basic electronics2William Allan
William Allan
bug windshieldBarbara Vanatta
colourChris
Days, nights, years, satellitesK Dawson
Defining the AtomTiffany Toledo
DENSITYGEIms
Determining the number of wavelengths in a wave diagramBarbara Vanatta
Determining wave frequency from a graphBarbara Vanatta
Derivation Applications of Bernoulli PrincipalMichael Marty
Locating an object - distance and displacementCorina Waage
Electric MotorPrincess Barcega
Electronic devicesKumar Sai Bas
Edison's bright ideaPeter L
Electric circuitsStephen Morris
Electric MotorBobbi Martin
Electrical Circuits 2Mell Conway
Electrical SafetyBreed
Electricity introChantelle Naomi
Electricity PracticalJacob Israel
ElectricitySEO
Electricty PresentationHina Hashmi
Electromagnetism + bellKrishna Sunki
Electronic devicesBen Zalewski
Electronic devices2Jacob Israel
emission spectraJon
Energy and changeWilliamallan
energy in the homeWilliam Allan
energy mattersGEIms
Energy transferDebbie Durack
EnergyCurtis Morgan
Fission and FusionMell Conway
Force DiagramsD Kormaz
Force_MotionHina Hashmi
forces introductionBip Chak
fossil_fuelsWilliam Allan
FrictionDave
Fuel CellJacob Israel
GammaHina Hashmi
Gas pressure & volumeWylie&Sam
Gas Temperature Volume and PressureKiran Pandey
Gases and their usesBen Friedman
Gravity and Circular Motion RevisionTehlu Singh
Gravity and Inverse Square Relationships NISBarrie Hughes
gravityMichael Marty
Guestimate that sideBarbara Vanatta
healthM Reynolds
HEAT ENERGYBreed
Heat Transfer ReviewWilliam
HeatDemetrios Xeroulis
HouseholdElectricityBen Friedman
How a Refrigerator WorksMichael Marty
How Lightening WorksAndrea&Co
How Lightning WorksMell Conway
HydraulicsMichael Marty
InfraredMark
Introduction to Oscillations and Simple Harmonic MotionVicinator
Ionising Radiation and Living ThingsAlison Diskin
Kinematic Equations NIS grade11physics reviewChristy Mckinzie
Kinematics using graphsHina Hashmi
LED PresentationDebbie Durack
lensesMell Conway
Light refraction and lensesParveneh&Co
lightBaldeep Singh
Locating an object - distance and displacementMike B
MagnetismAnant Pande
Magnetism3Mell Conway
Mass Force and GravityMell Conway
matter and the particle model pptAndy
Medical Uses of Ionising RadiationK Dawson
MicrowaveBarbara Vanatta
motionBarbara Vanatta
motion2Barbara Vanatta
newtons lawsrajaiah kaitha
NMR diagnosisHina Hashmi
NMRDebbie Durack
Nuclear Reactions AnswersLech Jedral
Nuclear Reactions QuestionsPY
Particle model conductionPY
Phases of the moonMell Conway
position vs time graph- Reading positionDasari Gopi
position vs time graph stopped objectsCorina Waage
position vs time graph which oneD Kormaz
Power and measuring itMell Conway
Pressure & water pressureMichael Marty
pressure and momentsEric
pressureJulie
PROJECTILE MOTIONCorina Waage
projectile motionSawhney Singh
Quantum generalPete
Quantum physics generalMike Davies
Radioactive DecayWilliam Allan
Resolving forcesWilliam Allan
resultant forcesWilliam Allan
RoboticsWilliam Allan
Rutherford ScatteringWilliam Allan
Satellite Orbits and Uses NISSylvia
sound and lightElliot
spectrallinesTiffany Francis
Speed and velocityD Power
Spherical mirrorsJohn
Starter conductors and insulatorsYenny Tiga
StaticL Com
The Left Hand Rule( for motors)Mell Conway
transportMichael Marty
Types of EnergyEric
UVJulie
Velocity vs time graphCorina Waage
Velocity vs time graph-area under the curveSawhney Singh
Velocity vs time graph-slopePete
Visible light and ColorMell Conway
WavesMichael Marty
waves2Eric
Waves3Julie
XRayCorina Waage
Electronic devicesSawhney Singh
Electronic devices2Pete
RoboticsPete

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


    Other hints and tips for making physics powerpoint presentations

    1. 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.

    2. 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.

    3. 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.

    4. 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.

    5. 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.

    6. 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.

    7. 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.

    8. 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.