Components of a Circuit (P2)

Question 1

Define Battery

Answer 1

Two or more cells.

Question 2

Define Current

Answer 2

The rate of flow of electric charge.

Question 3

Define Circuit

Answer 3

Two or more components that link to make something happen using electricity.

Question 4

Define Series

Answer 4

One main circuit where electricity can only flow through one route.

Question 5

Define Diode

Answer 5

Only allow electricity to flow in one direction and above a certain threshold.

Question 6

Define Resistor

Answer 6

Limits quantity of flow.

Question 7

Define Variable Resistor

Answer 7

Limits quantity of flow and can be adjusted.

Question 8

Define Fuse

Answer 8

Breaks a circuit with too much current.

Question 9

Define Voltmeter

Answer 9

Measures the potential difference between two points in a circuit.

Question 10

Define Ammeter

Answer 10

Measures the current in a circuit.

Question 11

Define Thermistor

Answer 11

Limits quantity of flow dependant on temperature.

Question 12

Define LDR

Answer 12

Limits quantity of flow dependant on light.

Question 13

Define Electron

Answer 13

Charged particles that move around a circuit.

Question 14

Define Insulator

Answer 14

Materials, such as rubber/plastic, which do not conduct electricity.

Question 15

What is charge?

Answer 15

Charge (Q)
Charge is measured in Coulombs (C)
Charge is a property defined by quantity of protons (+) vs electrons (-)

Question 16

What is current?

Answer 16

Current (I)
Current is measured in Amperes (A)
Current is the rate of flow of electric charge.

Question 17

Total Charge (using current and time)

Answer 17

Total Charge = Current × Time
Columbus (C) = Amperes (A) × Seconds (s)
Q = It

Question 18

Potential Difference (using current and resistance)

Answer 18

Potential Difference = Current × Resistance
Voltage (V) = Amperes (A) × Ohms(Ω)
V = IR

Question 19

What direction does ‘conventional current’ flow in?

Answer 19

‘Conventional current’ travels from positive to negative. (This is the flow of protons)

Question 20

What does the rope model show?

Answer 20

• Current is felt instantly when the power is applied no matter where electrons in the circuit are.
• Electrons are constantly in the wire with or without power.

Question 21

What makes insulators and conductors good at their jobs?

Answer 21

Insulators - High Resistance
Conductors - Low Resistance
Insulators have more obstacles for charged particles to pass through.

Question 22

What does it mean for resistance if there are many free electrons?

Answer 22

The more free electrons, the lower the resistance.

Question 23

What is a multimeter and how does it work?

Answer 23

Multimeter = ammeter + voltmeter + ohmmeter
One wire always goes in the COM input
One wire goes into 10A (if measuring current) or into VΩ (if measuring potential difference or resistance).

Question 24

How do you calculate resistance when plotting current and potential difference on a graph?

Answer 24

With Current on y axis and voltage on x axis.
Calculate the gradient (Change in y/ Change in x)
V=IR so R=V/I and Gradient=I/V
Therefore, if you reciprocate the gradient, you get resistance.
This is because the gradient and resistance are inversely proportional.

Question 25

When Voltage increases what happens to Current?

Answer 25

Voltage increase = Current increase

Question 26

Why are long wires not ideal?

Answer 26

Due to more obstacles in long wires, resistance increases.

Question 27

What happens to current and voltage in a series circuit?

Answer 27

Current in any point is the same and voltage is shared between any components.

Question 28

What happens to current and voltage in a parallel circuit?

Answer 28

Current is shared around the circuit and voltage is the same everywhere.

Question 29

What happens to the amount of resistance in a parallel circuit when resistors are added?

Answer 29

Resistance decreases when more resistors are added into the circuit. Adding a wire with no resistance could cause a component on another parallel to stop working.

Question 30

What happens to the amount of resistance in a series circuit when resistors are added?

Answer 30

Total resistance is the sum of the individual resistors. Resistance increases when more resistors are added.

Question 31

Why might a filament lamp given a different resistance graph (of current vs potential difference) than an LED?

Answer 31

A filament bulb gets hot and an LED doesn’t. The hotter the atoms, the more they move and thus interfere with passing, charged electrons, therefore, there is more resistance as they get hotter. This does not happen for LEDs. Therefore the graph for an LED is linear but that of a filament bulb flatness at the bottom and top and increases in gradient around the middle.

Question 32

Amperes split across parallel branches…

Answer 32

adds up to the total amps at the start of the circuit but it does not always split evenly

Question 33

What does an ammeter measure?

Answer 33

Flow of electric charge

Current

Question 34

What happens to current in a series circuit?

Answer 34

Same everywhere

Question 35

What happens to current in a parallel circuit?

Answer 35

It is split across the branches

All the branches add up to the current entering/ leaving the cell

Question 36

What direction does conventional current flow in?

Answer 36

Positive to Negative

Question 37

Describe the transfer of energy around a circuit

Answer 37

The cell gives the electrons chemical energy which becomes electrical energy. When this passes through components it changes store again.

Question 38

Define Potential Difference

Answer 38

How many joules of energy there is for each coulomb of charge

Question 39

1 volt =….

Answer 39

1 joule of energy for every coulomb of charge

Question 40

How do we measure Potential Difference

Answer 40

Voltmeter

Question 41

What happens to Potential Difference in series?

Answer 41

It is shared between the components

Question 42

Calculate the rate of flow of electric charge

Answer 42

Q=It

Charge (C) = Current (A) x time (s)

Question 43

What is electrical charge?

Answer 43

The size of the electrical current is the rate of flow of electrical charge

Question 44

What is the other term for Energy Transferred?

Answer 44

Work Done

Question 45

Calculate Energy Transferred (J)

related to charge

Answer 45

E=Qt

Energy (J) = Charge (C) x time (s)

Question 46

Define Resistance

Answer 46

The opposition in an electrical component to the movement of electrical charge through it.

Question 47

Calculate Resistance

Answer 47

R = V/I
(V=IR)
Resistance (Ω) =Voltage
(V)/ Current (A)

Question 48

Why would we use a resistor?

Answer 48

Change the brightness of a lamp

Lower the sped of a motor etc…

Question 49

What does the graph for resistance of an ohmic conductor look like?

Answer 49

Potential difference on the x axis and Current on the y axis

The resistance increases in a straight line passing through 0,0 as long as the temperature is constant

Question 50

What does the graph for resistance of a filament lamp look like?

Answer 50

Potential difference on the x axis and Current on the y axis

Resistance starts at a low gradient then increases to steady and then begins to slow again. It passes through 0,0.

Question 51

Why does resistance change in filament lamps?

Answer 51

Because as they heat up the particles move more and there is more resistance

Question 52

What does LED stand for?

Answer 52

Light Emitting Diode

Question 53

What do LEDs do?

Answer 53

Only allows current to flow in one direction

When current flows through, it emits light

Question 54

Why are LEDs useful?

Answer 54

Very energy efficient

Question 55

How do diodes work?

Answer 55

High resistance in the opposite direction

Question 56

What does the graph for resistance of a diode look like?

Answer 56

Potential difference on the x axis and Current on the y axis

Resistance is 0 in the negative an only begins increasing at 0,0 (or above a specific threshold)

Question 57

Resistance in series…

Answer 57

Adds up

Question 58

Resistance in series=

Answer 58

Total = R1 + R2….

Question 59

Resistance in parallel…

Answer 59

the total is less than the smallest resister

Question 60

What does LDR stand for?

Answer 60

Light Dependant Resistor

Question 61

What is the resistance of an LDR when it is bright?

Answer 61

Low

Question 62

What is the resistance of an LDR when it is dark?

Answer 62

High

Question 63

What happens to a thermistor at high temperature?

Answer 63

Low Resistance

Question 64

What happens to a thermistor at low temperature?

Answer 64

High

Question 65

Give an example of a useful LDR

Answer 65

Night - time garden lamp

Question 66

Give an example of a useful thermistor

Answer 66

Cooling in a laptop

Question 67

How do we investigate the impact of wire length on a circuit?

Answer 67

Put a wire on a meter ruler
Connect crocodile pins at 0cm and 10cm
Connect these to a circuit
Measure the current and potential difference in the circuit and calculate resistance
Repeat with the same circuits but different lengths, switching the power off in between readings to allow the circuit to stay cool
Plot a Length of Wire vs Resistance graph, subtracting the zero error

Question 68

Define Zero Error

Answer 68

A reading on a measuring instrument when the value should be 0
It is a systematic error that cannot be reduced by carrying out repeats

Question 69

What causes the zero error when investigating the effect of wire length on resistance?

Answer 69

Resistance between crocodile clip and wire

Crocodile clip not perfectly at 0

Question 70

How can we minimise heating effects when investigating the effect of wire length on resistance?

Answer 70

Use a low potential difference

Only turn it on when taking a reading

Question 71

Why is it important to have less heating effects when investigating resistance?

Answer 71

Heat increases resistance

Question 72

How does resistance change in a variable resistor?

Answer 72

We can increase the length of the wire, increasing resistance or vice versa

Question 73

Define Power

Answer 73

Rate at which energy is transferred

Question 74

1 watt is an energy transfer of…

Answer 74

…1 joule per second

Question 75

Appliances which are designed to generate thermal energy have much ……… power ratings than those which generate kinetic energy

Answer 75

Higher

Question 76

Calculate Energy Transferred (J)

related to power

Answer 76

E=Pt

Energy (J) = Power (W) x time (s)

Question 77

Calculate Power (W)
(with potential difference)

Answer 77

P = IV

Power (W) = Current (A) x Potential Difference (V)

Question 78

Calculate Power (W)
(without potential difference)

Answer 78

P = I^2R

Power (W) = Current ^2 (A^2) x Resistance (Ω)

Question 79

P = I^2R and P = IV are used for what?

Answer 79

To calculate the power of components/ appliances

Question 80

Define AC current

Answer 80

Current that is constantly changing direction

Question 81

What does AC stand for

Answer 81

Alternating Current

Question 82

Define DC current

Answer 82

Electrons only travel in one direction

Question 83

What does DC stand for

Answer 83

Direct Current

Question 84

Give an example where AC is used

Answer 84

Energy mains

Question 85

Give an example where DC is used

Answer 85

Battery

Question 86

What are Hz?

Answer 86

The amount of times AC current switches direction per second (frequency)

Question 87

What frequency do mains electricity have in the UK?

Answer 87

50 hertz (Hz)

Question 88

What potential difference do mains electricity have in the UK?

Answer 88

230V

Question 89

What is the advantage of using AC instead of DC?

Answer 89

Works with transformers in the electricity mains, can travel further

Question 90

What is an oscilloscope?

Answer 90

A machine used to see the pattern of current

Question 91

What does an oscilloscope trace look like for DC

Answer 91

Stays the same

Question 92

What does an oscilloscope trace look like for AC

Answer 92

Waves

Question 93

How do we calculate the frequency of AC using a oscilloscope trace?

Answer 93

Calculating the number of cycles per second (distance between peaks)

Question 94

What type of wire do most UK appliances use?

Answer 94

Three-core cable wire

Question 95

What is the brown wire in a three-core cable wire?

Answer 95

Live wire

Carries the alternating potential difference from the supply (230V)

Question 96

What are most three-core cable wires made of and why?

Answer 96

Copper - Conductive
Plastic covering - Non Conductive
Can conduct but not dangerous to touch

Question 97

What is the live wire also connected to for safety?

Answer 97

A fuse

Question 98

What is the blue wire in a three-core cable wire?

Answer 98

Neutral

Completes the circuit

Question 99

What potential difference does the live wire carry?

Answer 99

230V

Question 100

What potential difference does the neutral wire carry?

Answer 100

0V

Question 101

What is the green and yellow stripe wire in a three-core cable wire?

Answer 101

Earth

For safety

Question 102

What may happen if a live wire comes loose and touches a metal casing?
(assuming nothing else is involved)

Answer 102

The casing becomes live and if anyone touches it, it will electrocute them (probably fatally)

Question 103

Why should the live wire not be touched even when the switch is open

Answer 103

Some parts still have potential difference (230V) which could prove fatal

Question 104

What is the function of the earth wire?

Answer 104

It is connected to any metal cases and is connecter to the ground with a rod to instantly ‘earth’ any charge safely

Question 105

What is the function of a fuse?

Answer 105

If a huge current flows to the Earth, the fuse melts and cuts off the current

Question 106

What are the percentages of fuel sources in the UK?

Answer 106

> 50% Fossil Fuels
25% Renewables
20% Nuclear
(the rest is imported)

Question 107

Describe the components energy transfers through in the National Grid

Answer 107

(Starts in a power station,)
Goes through a step up transformer,
Goes through high voltage cables,
Goes through a step down transformer,
(Goes into homes.)

Question 108

What is the largest issue with the long energy transfer in the National Grid?

Answer 108

Energy is always lost in the power cables due to resistance of the wires

Question 109

What are the two ways of reducing energy loss in the National Grid?

Answer 109

Build power stations near homes

Use transformers

Question 110

What does a step-up transformers do?

Answer 110

Increases potential difference to several hundred thousand volts - current decreases
(less energy lost through the cables)

Question 111

Why are step-down transformers also needed?

Answer 111

Voltage is too high

Question 112

What does a step-down transformers do?

Answer 112

Decrease voltage to about 230V - current increases

Question 113

Define Static Electricity

Answer 113

Electricity created by the movement of electrons from one insulator to another, making one positive and the other negative

Question 114

What does it mean to be a good conductor?

Answer 114

Electrons can easily go through - metals

Question 115

What are insulators?

Answer 115

Materials electrons cannot easily go through

Question 116

Cloth is an insulator. Like everything, it is covered in….

Answer 116

Electrons which cannot move through the cloth

Question 117

What makes our hair stand on end with a van der graff generator?

Answer 117

The top of the generator is positive due to the plastic roller loosing electrons to the belt. (these are earthed at the bottom)
If someone holds onto this, they become positive and the hairs (also positive) now repel

Question 118

What is a danger of static electricity?

Answer 118

Sparks

Question 119

Objects with different charges…

Answer 119

Attract

Question 120

Objects with similar charges…

Answer 120

Repel

Question 121

Objects that are attracted to each other feel what force?

Answer 121

Force of attraction (non-contact)

Question 122

Objects that are repelled by each other feel what force?

Answer 122

Force of repulsion (non-contact)

Question 123

Energy field lines are always…. to a charged object?

Answer 123

Perpendicular

Question 124

If two charged objects are close, what happens to the force between them?

Answer 124

Becomes stronger

Question 125

If two charged objects are far apart, what happens to the force between them?

Answer 125

Becomes weaker

Question 126

What do field lines look like?

Answer 126

Perpendicular to an objects surface
Have arrows to show the direction of the force
Lines extend past the arrow