AQA - physics paper 1

Created by

sara!

Cards (82)

Energy is not something you can hold in your hand, it's just an idea
Total energy in any interaction is always conserved, energy cannot be created or destroyed
Energy can be turned into matter (Mass) but it's still technically true that energy cannot be created or destroyed
Energy stores 
Different types of energy
Kinetic energy 
Energy of motion, calculated as e = 1/2 mv^2
Gravitational potential energy (GPE) 
Energy an object has due to its position in a gravitational field, calculated as e = mgh
Elastic potential energy 
Energy stored in a stretched or compressed spring, calculated as e = 1/2 kx^2
Thermal energy 
Energy transferred due to a temperature difference, calculated as e = mcΔT
Chemical potential energy 
Energy stored in chemical bonds, e.g. in food or fuels
In a closed system, no energy is lost to the surroundings and no energy comes in from the surroundings
Gravitational potential energy (GPE) 
Converted to kinetic energy (KE) as an object falls
Work is just another word for energy used
Specific heat capacity practical
Use an electric heater, voltmeter, ammeter, balance, timer and thermometer to measure the specific heat capacity of a material
Power 
The rate of energy transfer, calculated as P = E/t
Efficiency 
The ratio of useful energy output to total energy input, calculated as efficiency = useful energy out / total energy in
Electricity 
The flow of electric charge, which carries energy from a source to a component where it is released as another form of energy
Potential difference (PD) / Voltage
The amount of energy transferred per unit of charge, calculated as V = E/Q
Current 
The rate of flow of electric charge, calculated as I = Q/t
Resistance 
The property of a component that opposes the flow of electric current, described by Ohm's law V = IR
Resistance of a resistor is constant (ohmic), but resistance of a bulb varies (non-ohmic)
PD and current or V and I
Directly proportional
Drawing a graph of PD and current makes a straight line
Reversing the battery gives negative values for PD and current but still a straight line through the origin
Straight line with constant gradient
Shows that a resistor has constant resistance
Resistor 
Ohmic - the steeper the gradient, the lower the resistance
Ohm's law 
V = I * R (PD in volts = current in amps * resistance in ohms)
Resistance of a component can be found from an I-V graph by rearranging Ohm's law to R = V/I
For a resistor, the resistance value is the same regardless of the point on the I-V line used
For a bulb, the I-V graph is curved, showing that resistance is changing
Resistance of metal 
Increases with higher PD and current, due to increased collisions between electrons and ions
Resistors are specially made so their resistance stays constant with temperature changes
Diode 
Only allows current to flow in one direction, with very low resistance in one direction and very high resistance in the other
LED (light emitting diode) 
Similar to a diode, but also emits light
Measuring resistance of a metal wire
1. Connect wire to circuit with crocodile clips
2. Measure V and I
3. Calculate R using Ohm's law
4. Move one clip to change wire length
5. Observe straight line relationship between resistance and wire length
Series circuits 
Total PD is shared between components
Current is the same for all components
Total resistance is the sum of all resistances
Parallel circuits 
PD is the same for each branch
Current is shared between branches
Total resistance decreases as more resistors are added
Thermistor 
Resistance decreases as temperature increases
LDR (light dependent resistor)
Resistance decreases as light intensity increases
Power 
P = VI or P = I^2R
Direct current (DC) 
Current only flows in one direction