Physics SL
5
Chapters
329
Notes
Theme A - Space, Time & Motion
Theme B - The Particulate Nature Of Matter
Discover Matter's Forms: Solids, Liquids & Gases in Physics
Discovering Particles: Evolution of Material Structure Language
Phases Of Matter: Understanding Solid, Liquid, And Gas
Understanding Temperature: From Historical Views To Modern Scales
Internal Energy: Exploring Phases & Particle Movement
Linking KineEnergy & Temperature: Understanding The Boltzmann Constant
Unraveling Energy Transfers: Temperature & Phase Changes
Understanding Specific Heat Capacity: Water vs. Copper
Understanding Specific Latent Heat: From Ice To Vapor
Thermal Energy Transfer: Conduction, Convection & Radiation
Understanding Thermal & Electrical Conduction: A Deep Dive
Understanding Thermal Conductivity: Engineering Design Insights
Unveiling Convection: The Natural Powerhouse Behind Fluid Movement
Sea Breezes: Understanding Day-Night Ocean Wind Changes
Discover Earth's Convection: Shaping Continents Over Time
Understanding Why Winds Blow & The Magic Of Convection
Thermal Radiation & Its Impact on Everyday Objects
Black-Body Radiation: Unraveling The Secrets Of Thermal Energy
Unlocking Black Body Radiation: How Spectrum Varies With Temperature
Unveiling Wien's Displacement Law: The Key To Black-Body Emission
Unlocking the Stefan–Boltzmann Law: The Power of Black Body Radiation
Crucial Astronomy Laws: Stefan–Boltzmann & Wien’s Displacement
Unlocking Stellar Secrets: Apparent Brightness & Galaxy Discoveries
Understanding Earth's Atmosphere: The Vital 0.04% Impact
Unlocking Emissivity: Grey Bodies Vs. Black Bodies Explained
Unlocking The Mysteries: The Solar Constant & Earth's Energy Balance
Unlocking Earth's Energy Balance: Surface & Atmosphere Dynamics
Understanding The Greenhouse Effect: Earth Vs. Moon Temperatures
Why Greenhouse Gases Absorb Energy: The Science Unraveled
Earth's Climate Balance: Unveiling The Secrets Of Surface Temperature
Global Warming: The Undeniable Climate Shift We Face
Understanding The Origin Of Gas Pressure In The Atmosphere
Understanding Pressure: Solids, Liquids, and Gases Explained
Understanding Avogadro's Number & The Significance Of The Mole
Gas Laws: A Deep Dive Into Boyle's, Charles's, And Avogadro's Discoveries
Unlocking the Secrets: A Deep Dive into Gas Molecules and Brownian Motion
Kinetic Model Of Ideal Gas: A Comprehensive Exploration
Linking Temperature to Kinetic Energy: Dive into Ideal Gas Theory
Understanding Real vs. Ideal Gases: Key Insights
Understanding Gas Behavior: Real vs. Ideal Interactions
Thermodynamics Basics: Systems, Surroundings, and Energy Transfer
Unlocking The First Law of Thermodynamics: Insights & Examples
Pressure-Volume Diagrams: Visualizing Gas Work & Processes
Unlocking Gas Behavior: Dive Into P–V Diagrams & Thermodynamics
Isobaric Change: Delve Into Thermodynamics & Gas Laws
Isovolumetric Change: Understanding Constant Gas Volume
Understanding Isothermal Changes: The Basics Explained
Understanding Adiabatic Changes: Insight & Implications
Unlocking The Secrets Of Heat Engines: A Deep Dive
Understanding Refrigerators & Heat Pumps: Energy Transfers Explained
Mastering Thermodynamics: Fun With Physics!
Entropy & Thermodynamics: The Macroscopic Viewpoint Explained
Understanding Entropy: From Microscopic Interpretation To Real-World Implications
Discovering Electrification: From Ancient Greeks To Modern Science
Understanding Metal Conduction: From Atoms To Electrons
Understanding Electric Current: From Electrons To Amperes
Understanding Potential Difference & Its Role in Electrical Circuits
Unraveling The Multifaceted Effects Of Electric Current
Electromotive Force (Emf): Understanding Energy Transfers In Circuits
Understanding Electrical Power: From Basic Concepts To Advanced Applications
Mastering Current & Potential Difference: Analogue Vs. Digital Meters
Understanding Electrical Resistance: From Electron Interactions to Everyday Applications
Understanding Ohm’s Law: From History To Practical Applications
Understanding Non-Ohmic Behavior: Beyond Ohm's Law
Unlocking Resistivity: Key Insights & Practical Explorations
Mastering Resistor Combinations: Series & Parallel Explained
Explore Variable Resistors: How They Adjust To Your Needs
Unraveling Thermistors: NTC's Unique Temperature-Resistance Relation
Unlocking The Secrets Of Light-Dependent Resistors
Understanding Variable Resistors & Potentiometers: A Deep Dive
Master Heating Equations & Energy Conversion Calculations
Unlocking The Secrets Of Electric Cells & Batteries: DC Devices Explored
Chemical Vs. Solar Cells: A Deep Dive Into Energy Sources
Internal Resistance & EMF: Decoding Cell Dynamics
Power Matching in Cells: Maximizing Circuit Efficiency
Theme C - Wave Behaviour
Theme D - Fields
Theme E - Nuclear & Quantum Physics
Physics SL
Theme B - The Particulate Nature Of Matter
Understanding Temperature: From Historical Views To Modern Scales
684 words
4 mins read
Last edited on 5th Nov 2024
Table of content
Temperature, energy, & atomic dance parties 🕺
- Back in the day: Before we knew about atoms, scientists didn't think of solids, liquids, and gases in terms of particle vibes and dance moves.
- The Phlogiston Saga: In the 17th century, scientists believed in an imaginary substance called phlogiston (sometimes called caloric). They thought it flowed from hot stuff to cold stuff, like pouring water from a high glass to a low one.
- Fun Fact: Ever heard of the calorie in food? It's named after this old idea!
- How Hot Are You? Scientists developed a way to describe an object's "hotness" - aka temperature. They used scales to do this. Think of it like rating a spicy chili pepper! 🌶️
Battle of the scales - celsius vs. kelvin vs. fahrenheit
- Every temperature scale has two main points (like goalposts in a football game).
- Celsius (once called Centigrade) and Kelvin are the major players here. And guess what? They're like cousins.
- Kelvin's coolest feature? The concept of absolute zero (0K), the coldest temperature ever! Imagine it like the North Pole but cooler!
- The other cool point is the triple point of water. At 273.16K and 611 Pa, ice, water, and steam hang out together! It's a rare party, and it's only 0.6% of our atmospheric pressure. Change the music (conditions) even slightly, and one of them will leave the party. 🎉
Let's build - the thermocouple 🌡️
What's a thermocouple? A temperature sensor that gets its groove from the potential difference between two different metals.
- You'll need: A sensitive voltmeter, copper wires with crocodile clips, and nichrome wire.
- Set-Up: Connect the nichrome to the copper wires. Place one end in icy water (0°C) and the other in warm water.
- The Task: Change the warm water's temperature and record the voltmeter readings. Plot these on a graph! It's like tracking your favorite song's position on the charts week by week.
- Challenge: Try measuring your freezer's temperature with your thermocouple! How close did you get?
Unlock the Full Content! 
Dive deeper and gain exclusive access to premium files of Physics SL. Subscribe now and get closer to that 45 🌟
Physics SL
Theme B - The Particulate Nature Of Matter
Understanding Temperature: From Historical Views To Modern Scales
684 words
4 mins read
Last edited on 5th Nov 2024
Table of content
Temperature, energy, & atomic dance parties 🕺
- Back in the day: Before we knew about atoms, scientists didn't think of solids, liquids, and gases in terms of particle vibes and dance moves.
- The Phlogiston Saga: In the 17th century, scientists believed in an imaginary substance called phlogiston (sometimes called caloric). They thought it flowed from hot stuff to cold stuff, like pouring water from a high glass to a low one.
- Fun Fact: Ever heard of the calorie in food? It's named after this old idea!
- How Hot Are You? Scientists developed a way to describe an object's "hotness" - aka temperature. They used scales to do this. Think of it like rating a spicy chili pepper! 🌶️
Battle of the scales - celsius vs. kelvin vs. fahrenheit
- Every temperature scale has two main points (like goalposts in a football game).
- Celsius (once called Centigrade) and Kelvin are the major players here. And guess what? They're like cousins.
- Kelvin's coolest feature? The concept of absolute zero (0K), the coldest temperature ever! Imagine it like the North Pole but cooler!
- The other cool point is the triple point of water. At 273.16K and 611 Pa, ice, water, and steam hang out together! It's a rare party, and it's only 0.6% of our atmospheric pressure. Change the music (conditions) even slightly, and one of them will leave the party. 🎉
Let's build - the thermocouple 🌡️
What's a thermocouple? A temperature sensor that gets its groove from the potential difference between two different metals.
- You'll need: A sensitive voltmeter, copper wires with crocodile clips, and nichrome wire.
- Set-Up: Connect the nichrome to the copper wires. Place one end in icy water (0°C) and the other in warm water.
- The Task: Change the warm water's temperature and record the voltmeter readings. Plot these on a graph! It's like tracking your favorite song's position on the charts week by week.
- Challenge: Try measuring your freezer's temperature with your thermocouple! How close did you get?
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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