Physics SL
5
Chapters
329
Notes
Theme A - Space, Time & Motion
Mastering Motion: Scalars Vs. Vectors Explained
Scalar Vs. Vector: Dive Into Speed & Velocity Insights
Master Distance-Time Graphs: A Student’s Journey Explained!
Understanding Instantaneous & Average Speed: A Student's Journey Explained
Understanding Acceleration: Dive Into Physics & Spreadsheets
Mastering Distance-Time Graphs: Speed, Velocity & Acceleration Insights
Mastering Kinematic Equations: Dive Into Distance-Time & Speed-Time Graphs
Unveiling Kinematic Equations: Dive into Motion Analysis
Incredible Dog Catch Explained: Dive Into Physics!
Gravity's Grip: Understanding Earth’s Acceleration Variances
Understanding 2D Projectile Motion: Beyond Basics
Understanding Horizontal & Vertical Motion in Physics
The Unrealistic Nature of Neglecting Air Resistance
Understanding Air Resistance's Impact on Vertical Motion
Comparing Trajectories: Vacuum Vs. Air Resistance (Figure 24)
Unveiling The Mystery Of Forces: From Aristotle To Modern Physics
Unraveling Newton's Laws of Motion: The Ultimate Guide to Force and Acceleration
Unveil The Science Of Motion: Master Free-Body Force Diagrams Easily!
Unraveling The Mysteries of Translational Equilibrium
Unlocking The Secrets Of Hooke's Law And Elastic Forces
Master The Physics Of Springs: Series Vs Parallel!
Uncover The Secrets of Buoyancy Forces!
Unraveling the slippery secrets of friction
Uncover The Mysteries Of Friction Forces
Understanding Air Resistance: The Record-Breaking Skydive Of Alan Eustace
Stokes' Law: Dive Deep Into Fluid Dynamics & Viscosity
Understanding Force & Momentum: From Sports To Physics
Newton's Cradle: Visualizing Momentum Transfer and Collisions
Unraveling Newton's Third Law: Momentum Conservation Explored
Understanding Momentum Conservation: The Recoil Of Guns & Water Hoses
Helicopter Physics & Momentum: Understanding Motion & Force
Unlocking The Secrets Of Circular Motion In Theme-Park Rides
Centripetal Acceleration: Exploring Forces & Circular Motion
Centripetal Forces: Unraveling The Secrets Of Satellites & Rides
Banked Tracks Explained: Maximizing Racing Safety & Performance
Vertical Circle Motion: Unraveling The Physics Behind Thrilling Rides
Unveiling The Physics Of Energy Transfer: A Historical Dive
Understanding Energy: Transfers, Forms, and Applications
Unlocking Energy Conservation: Noether's Pioneering Principle
Coriolis' Insight: Understanding Work Done & Energy Transfer
Understanding Force-Distance Graphs: Unlock Energy Calculations
Unraveling Power: Renee vs. Philippe's Climb Explained
Key Factors Determining a Car's Maximum Speed
Unlocking Kinetic Energy: Equations & Real-Life Examples
Unlocking Gravitational Potential Energy: Earth's Conservative Force
Unveiling The Secrets of Mechanical Energy
Unlock The Secrets Of Elastic Potential Energy
Unlock The Secrets Of Energy Flow With Sankey Diagrams
Unlock The Power Of Energy Density!
Unveiling The Truth Behind Fossil Fuels Extraction
Unlock The Secrets Of Angular Acceleration!
Unlock Rotational Motion Secrets: Essential Guide & Examples
Unravel Rotational Mechanics: From Graphs To Equations!
Master The Concept Of Moment Of Inertia!
Unleash The Secrets Of Rotational Motion!
Unveiling The Secrets of Forces and Torque
Unveiling Newton’s Third Law of Rotational Motion
Unlock The Secrets of Angular Momentum in Sports & Universe!
Unlocking Angular Impulse: Rotational Dynamics Simplified
Unlock The Secrets Of Angular Momentum Change!
Master The Art Of Motion: Rolling Vs. Sliding
Unlocking the Mysteries of Rolling and Slipping: An Energy Perspective
Unraveling Einstein's Relativity: Maxwell's Revolutionary Theory
Unlock The Mysteries Of Spacetime!
Unlock The Secrets Of The Universe With IB Diploma Physics
Unlock The Mysteries Of The Universe With Galilean Relativity
Unlock The Mysteries Of Time Dilation And Special Relativity
Unlocking Einstein's Special Relativity With Lorentz Transformation
Understanding Relativistic Velocity Addition: Lorentz vs. Galilean
Invariant Spacetime Intervals: Einstein's Revelations
Muon Decay Mysteries: Unraveling Time Dilation & GPS Insights
Unraveling Spacetime: Minkowski's Visionary Diagrams and Worldlines
Unlocking Spacetime Secrets: The Invariant Hyperbola Explained
Unlocking Proper Length & Relativity: Deep Dive Into Lorentz Transformations
Theme B - The Particulate Nature Of Matter
Theme C - Wave Behaviour
Theme D - Fields
Theme E - Nuclear & Quantum Physics
Physics SL
Theme A - Space, Time & Motion
Unraveling Spacetime: Minkowski's Visionary Diagrams and Worldlines
630 words
4 mins read
Last edited on 5th Nov 2024
Table of content
Spacetime diagrams & worldlines 📈
- Concept: Think of spacetime diagrams as a way to picture the four-dimensional reality we live in.
- Quick Fact: Introduced by Hermann Minkowski in 1908.
- Diagrams
- Position (x) on the x-axis 📏
- Time (t) on the y-axis ⌛️
- Note: This is opposite to the distance-time graphs you might remember.
- Example: Think of it like a game screen where time is vertical, and space is horizontal.
- a. Stationary Particle 🛑
- It remains on the x-axis as time increases.
- Its worldline (trajectory) is straight up.
- b. Moving Particle 🚀
- Starts at the origin.
- Its worldline is slanted if it's moving at a constant speed.
- Curved if it's accelerating.
- c. Super-fast Particle (Speed Limit) 🚗💨
- Nothing can move faster than light! 🚫💡
- There's a max slope or gradient for the worldline.
- Fun Fact: A photon's worldline is shown by this max gradient.
Real-world Analogy: Think of the worldlines as the trails left behind by skywriters. A straight line means the plane was stationary, a slant means it was moving, and a curve means it was accelerating!
Combining spacetime diagrams 🔄
- Why?: To understand the weird stuff relativity brings to the table!
- Fun Change: Sometimes, you'll see the time axis labeled as "ct" instead of just "t." This makes time and position have the same units.
Speeds close to light 🌠
Convention: Physicists sometimes set the speed of light (c) as 1 to make math easier.
- So, 0.95c is like saying something's moving at 95% the speed of light!
Angles in spacetime diagrams 📐
- If you love trigonometry, this is for you.
- The angle θ between a particle's worldline and the time axis can be found using tan θ = v/c.
- When something's moving as fast as light (v = c), θ = 45°.
Analogy: Imagine a steep hill representing the speed of light. Anything on that hill is moving at the speed of light.
Unlock the Full Content! 
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Physics SL
Theme A - Space, Time & Motion
Unraveling Spacetime: Minkowski's Visionary Diagrams and Worldlines
630 words
4 mins read
Last edited on 5th Nov 2024
Table of content
Spacetime diagrams & worldlines 📈
- Concept: Think of spacetime diagrams as a way to picture the four-dimensional reality we live in.
- Quick Fact: Introduced by Hermann Minkowski in 1908.
- Diagrams
- Position (x) on the x-axis 📏
- Time (t) on the y-axis ⌛️
- Note: This is opposite to the distance-time graphs you might remember.
- Example: Think of it like a game screen where time is vertical, and space is horizontal.
- a. Stationary Particle 🛑
- It remains on the x-axis as time increases.
- Its worldline (trajectory) is straight up.
- b. Moving Particle 🚀
- Starts at the origin.
- Its worldline is slanted if it's moving at a constant speed.
- Curved if it's accelerating.
- c. Super-fast Particle (Speed Limit) 🚗💨
- Nothing can move faster than light! 🚫💡
- There's a max slope or gradient for the worldline.
- Fun Fact: A photon's worldline is shown by this max gradient.
Real-world Analogy: Think of the worldlines as the trails left behind by skywriters. A straight line means the plane was stationary, a slant means it was moving, and a curve means it was accelerating!
Combining spacetime diagrams 🔄
- Why?: To understand the weird stuff relativity brings to the table!
- Fun Change: Sometimes, you'll see the time axis labeled as "ct" instead of just "t." This makes time and position have the same units.
Speeds close to light 🌠
Convention: Physicists sometimes set the speed of light (c) as 1 to make math easier.
- So, 0.95c is like saying something's moving at 95% the speed of light!
Angles in spacetime diagrams 📐
- If you love trigonometry, this is for you.
- The angle θ between a particle's worldline and the time axis can be found using tan θ = v/c.
- When something's moving as fast as light (v = c), θ = 45°.
Analogy: Imagine a steep hill representing the speed of light. Anything on that hill is moving at the speed of light.
Unlock the Full Content!
Dive deeper and gain exclusive access to premium files of Physics SL. Subscribe now and get closer to that 45 🌟
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