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CGP GCSE Physics
> ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ > Flashcards
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Flashcards
Study These Flashcards
CGP GCSE Physics
(237 decks)
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Speed and Velocity are Both How Fast You’re Going
Acceleration is How Quickly Velocity is Changing
Distance-Time Graphs Tell You How Far Something has Travelled
Velocity-Time Graphs can have a Positive or Negative Gradient
Gravity is the Force of Attraction Between All Masses
Weight and Mass are Not the Same
The Very Important Formula Relating Mass, Weight and Gravity
There are Loads of Different Types of Force
You Can Draw the Forces Acting on a Body
Friction is Always There to Slow Things Down
You can Investigate the Motion of a Toy Car on a Ramp
You Could Play Around with the Experimental Set-up
First Law - Balanced Forces Means No Change in Velocity
Second Law - A Resultant Force Means Acceleration
Resultant Force = Mass x Acceleration
Resultant Force is Real Important - Especially for ‘F = ma’
The Third Law - Reaction Forces
Vectors Have Size and Direction - Scalar Quantities Only Have Size
To Work Out Resultant Force You Need to Combine Vectors
Moving Objects Can Reach a Terminal Velocity
The Terminal Velocity of Falling Objects Depends on Their Shape and Area
Hooke’s Law Says that Extension is Proportional to Force
You Can Investigate Hooke’s Law with a Spring
Hooke’s Law Stops Working when the Force is Great Enough
A Material Can Return to its Original Shape After an Elastic Deformation
Many Factors Affect Your Total Stopping Distance
Thinking Distance
Braking Distance
Momentum = Mass x Velocity
Momentum Before = Momentum After
Forces Cause Changes in Momentum
A Moment is the Turning Effect of a Force
The Centre of Gravity Hangs Directly Below the Point of Suspensión
A Question of Balance - Are the Moments Equal?
Forces are Not Always Equal Across All Supports
And if the Moments are Not Equal...
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The Properties of a Circuit
The Standard Test Circuit
Five Important Points
Mains Supply is a.c, Battery Supply is d.c
There’s a Formula Linking V and I
Four Hideously Important Current-Voltage Graphs
Light-Emitting Diodes are Really Useful
Some Components Can Change Resistance
Series Circuits - All or Nothing
Parallel Circuits - Everything is Independent
Charge Through a Circuit Depends on Current and Time
When a Charge Drops Through a Voltage it Transfers Energy
Appliances must be Earthed or Insulated
Earthing and Fuses Prevent Fires and Shocks
Circuit Breakers Have Some Advantages Over Fuses
Resistors Get Hot When an Electric Current Passes Through Them
Electrical Power and Fuse Ratings
Electrical Appliances Transfer Energy Electrically
Like Charges Repel, Opposite Charges Attract
Conductors Conduct Charges - Insulators Don’t
A Static Charge Cannot Move
As Charge Builds Up, So Does the Voltage
Investigating Static Electricity
Gold-Leaf Electroscope
Suspending a Charged Rod
Van de Graaf Generators Make Your Hair Stand on End
Inkjet Printer
Photocopier
Clothing Crackles
Lightning
The Fuel-Filling Nightmare
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All Waves Have Wavelength, Frequency, Amplitude and Speed
Wave Speed = Frequency x Wavelength
Waves Can Be Transverse or Longitudinal
All Waves Transfer Energy and Information Without a Transferring Matter
Two or More Waves Moving Together Have Wavefronts
The Doppler Effect Makes Waves Longer or Shorter
There are Seven Types of Electromagnetic (EM) Waves
Radio Waves are Used Mainly for Communications
Microwaves are Used for Satellite Communication and Heating Food
Infrared Radiation is a Used for Heating and to Monitor Temperature
Light Signals Can Travel Through Optical Fibres
Visible Light is Also Useful for Photography
Ultraviolet is Used in Fluorescent Lamps
X-Rays Let Us See Inside Things
Gamma Radiation Can be Very Useful For Sterilising Medical Equipment
Gamma Radiation Can be Very Useful For Sterilising Food
Some EM Radiation Can be Harmful to People
Higher Frequency EM Radiation is Usually More Dangerous
Reflection of Light Lets Us See Things
Waves Can be Refracted
Draw A Ray Diagram for a Refracted Wave
Rays Passing Through a Glass Block are Refracted Twice
Triangular Prisms Disperse White Light
Every Transparent Material Has a Refractive Index
Find the Refractive Index of Glass a Using a Glass Block
Use Semicircular Blocks to Show Total Internal Reflection
You Can Use Snell’s Law to find Critical Angles
Optical Fibres and Prisms Use Total Internal Reflection
Sound Travels as a Wave
An Oscilloscope Can Display Sound Waves
Loudness Increases with Amplitude
The Higher the Frequency, the Higher the Pitch
Find the Period of a Wave on an Oscilloscope to get its Frequency
You Can Use an Oscilloscope to Measure the Speed of Sound
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Energy is Transferred Between Energy Stores
There is a Principle of Conservation of Energy
Most Energy Transfers Involve Some Losses, Often by Heating
You can Calculate the Efficiency of an Energy Transfer
How to Use the a Formula - Nothing to It
We Generally Can’t do Anything Useful with Wasted Energy
A Ball Rolling Up a Slope
A Bat Hitting a Ball
An Electric Kettle Boiling Water
A Battery-Powered Toy Car
A Bunsen Burner and Beaker
The Thickness of the Arrow Represents the Amount of Energy
Energy Transfer by Heating can Happen in Three Different Ways
Thermal Radiation Involves Emission of Electromagnetic Waves
Conduction - Occurs Mainly in Solids
You Can do an Experiment to Demonstrate Conduction
Convection of Heat - Liquids and Gases Only
The Immersion Heater Example
You Can See Convection Currents Using Coloured Crystals
You Can Reduce the Rate of Energy Transfer
You Can Investigate Emission of Thermal Radiation With a Leslie Cube
‘Work Done’ is Just ‘Energy Transferred’
And Another Formula to Learn
Power is the ‘Rate of Doing Work’ - I.e How Much per Second
Movement Means a Energy in an Object’s Kinetic Energy Store
Raised Objects Store a Energy in Gravitational Potential Energy Stores
Falling Objects Also Transfer Energy
Non-Renewable Energy Resources Will Run Out One Day
Most Power Stations Use Steam to Drive a Turbine
Advantages of Fossil Fuels
Disadvantages of Fossil Fuels
Nuclear Reactors are Just Fancy Boilers
Wind Farms - Lots of Wind Turbines
Geothermal Power - Heat from Underground
You Can Capture the Sun’s Energy Using Solar Cells
Solar Water Heating Panels
Cooking with Solar Power
Wave Power - Lots of Little Wave Converters
Tidal Barrages Generate Energy When the Tide Goes In and Out
Hydroelectricity - Catching Rainwater
Pumped Storage Gives Extra Supply Just When it’s Needed
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Density is Mass per Unit Volume
You Can Find the Density of an Object from its Mass and Volume
Pressure is Force per Unit Area
Pressure Differences in Liquids and Gases Depends on Density
Kinetic Theory Can Explain the Three States of Matter
Evaporation is a Special Example of Changing States
You Can Obtain a Temperature-Time Graph for Water
Absolute Zero is as Cold as Stuff Can Get - 0 Kelvins
Energy in Particles’ Kinetic Energy Stores is Proportional to Temperature
Particle Theory Says Colliding Gas Particles Create Pressure
At Constant Temperature ‘pV = Constant’
At Constant Volume ‘p/T = Constant’
Specific Heat Capacity Relates Temperature and Energy
You can Find the Specific Heat Capacity of Water
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Magnets Produce Magnetic Fields
Magnetic Field Patterns can be Seen Using Compasses
Magnetism can be Induced
A Current-Carrying Wire Creates a Magnetic Field
The Magnetic Field Around a Straight Wire
The Magnetic Field Around a Flat Circular Coil
The Magnetic Field Around a Solenoid
Magnetic Materials can be ‘Soft’ or ‘Hard’
A Current in a Magnetic Field Experiences a Force
Fleming’s Left-Hand Rule Tells You Which Way the Force Acts
4 Factors which Speed up a Simple D.C Electric Motor
Loudspeakers Work Because of the Motor Effect
Electromagnetic Induction
The Dynamo Effect - Move the Wire or the Magnet
A.C Generators - Just Turn the Coil and There’s a Current
Transformers Change the Voltage - but Only Alternating Voltages
The Transformer Equation - Use it Either Way Up
Transformers are Nearly 100% Efficient So ‘Power in = Power Out’
Transformers Make Transmitting Mains Electricity More Efficient
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At the Centre of Every Atom is a Nucleus
Isotopes are Atoms with Different Numbers of Neutrons
Radioactive Decay is a Random Process
Background Radiation is Everywhere All the Time
Nuclear Radiation Causes Ionisation
Alpha Particles are Helium Nuclei
Beta Particles are Electrons
Gamma Rays are Very a Short Wavelength EM Waves
You Can Identify the Type by its Penetrating Power
You can Investigate the Penetration of a Radiation
Balancing Nuclear Equations
The Radioactivity of a Sample Always a Decreases Over Time
Measuring the Half-Life of a Sample Using a Graph
Medical Tracers Use Beta or Gamma Radiation
Radiation is Also Used to Treat Cancer
Food and Equipment can be Sterilised Using Gamma Rays
Radiation is Used in Industry for Tracers and Thickness Gauges
Ionising Radiation Can Damage Cells and Tissues
Exposure to Radiation is called Irradiation
Contamination is Radioactive Particles Getting onto Objects
Radioactive Waste is Difficult to Dispose of Safely
Nuclear Power Stations use Nuclear Fission Chain Reactions
Nuclear Reactors Have to Work-Safely
Nuclear Fusion - Joining Small Nuclei
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We are Part of the Milky Way Galaxy
Our Solar System has One Star - The Sun
Gravity Provides the Force That Creates Orbits
The Force due to Gravity Depends on Mass and Distance
There are Different Types of Orbit
You can Calculate Orbital Speeds
Stars can be Classified by their Colours
You can Compare Brightness using Absolute Magnitude
You can See Different Types of Star on the Hertzsprung-Russell Diagara,
Waves are Affected by the Motion of the Source
Light from Galaxies is Red-shifted
Calculating Red-shift
Red-shift Suggests the Universe is Expanding
There’s Microwave Radiation from All Directions
This Evidenced Suggests the Universe Started with a Bang
Microwaves
Infrared
Ultraviolet
Gamma
The Transformer Equation - Use it Either Way Up
Stars 1.
Stars 2.
Stars 3.
Stars 5.
Stars 6.
Stars 7.
Stars 8.
Stars 4.
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Burgess mini test
