Combined Physics - 6.2

Question 1

What are the circuit symbols for a switch (open and closed), a cell and a battery?

Answer 1

Question 2

What are the circuit symbols for a diode, resistor, variable resistor and LED?

Answer 2

Question 3

What are the circuit symbols for a lamp, fuse and voltmeter?

Answer 3

Question 4

What are the circuit symbols for an ammeter, thermistor and LDR?

Answer 4

Question 5

For electrical charge to flow through a closed circuit what must be included?

Answer 5

A source of potential difference

Question 6

What is electrical current and what determines the size of the current?

Answer 6

The flow of electrical charge, determined by the rate of flow

Question 7

What is the equation for charge flow?

Answer 7

Question 8

In a single closed loop, what value would the current have at any point?

Answer 8

The same value

Question 9

What affects the current through a given component?

Answer 9

The resistance of the component and the potential difference across it

Question 10

For a given potential difference, what happens to the current when the resistance increases?

Answer 10

The current gets smaller

Question 11

What equation links potential difference, current and voltage?

Answer 11

Question 12

What happens to the resistance of an ohmic conductor (such as a wire) when the current changes?

Answer 12

The resistance of ohmic conductors doesn’t change with current

Question 13

What happens to the resistance of a diode or filament lamp when current changes?

Answer 13

Resistance increases with temperature, such as the current increases the resistance increases

Question 14

Draw and describe an I-V graph for an ohmic resistor (e.g. a resistor at a constant temperature)

Answer 14

Current (at constant temperature) is directly proportional to potential difference

Question 15

Draw and describe an I-V graph for a filament lamp

Answer 15

As the current increases the temperature of the filament lamp increases (so the resistance increases) meaning less current can flow per unit potential difference

Question 16

Draw and describe an I-V graph for a diode

Answer 16

Current will only flow in one direction (there is a very high resistance in the other direction)

Question 17

What happens to the resistance of a thermistor as temperature increases?

Answer 17

As temperature increases a thermistor’s resistance decreases

Question 18

Where are thermistors commonly found?

Answer 18

Car engine temperature sensors / electronic thermostats (as temperature rises the resistance decreases)

Question 19

What happens to the resistance of a LDR as light increases?

Answer 19

As light increases a LDR’s resistance decreases

Question 20

Where are LDRs commonly found?

Answer 20

LDRs are used as automatic night lights / burglar detectors (in bright light the resistance is low)

Question 21

How are LDRs and thermistors used in sensing circuits?

Answer 21

Sensing circuits can be used to turn on / increase the power to components depending on conditions (e.g. as a room gets hotter the resistance of a thermistor decreases taking a smaller share of the potential difference from a power supply allowing a fan to get more potential difference and spin faster)

Question 22

What are the two ways of joining an electrical component?

Answer 22

In series or in parallel

Question 23

In a series circuit, what is the current like through all components?

Answer 23

The same

Question 24

How is the total potential difference distributed between the components in a series circuit?

Answer 24

It is shared

Question 25

How are step-down transformers used within the National Grid?

Answer 25

Step-down transformers bring the 400’000V of the National Grid down to 230V for domestic use

Question 26

How can the total resistance of two components in a series circuit be worked out?

Answer 26

The total resistance of the components in a series circuit is the sum of all of them

Question 27

In a parallel circuit what is the potential difference across each component like?

Answer 27

It is the same

Question 28

What would the total resistance of two resistors be?

Answer 28

Less than the resistance of the smallest individual resistor

Question 29

What type of electricity supply is a battery?

Answer 29

Direct current (DC)

Question 30

What is the equation for R_total?

Answer 30

R_total = R1 + R2

Question 31

How can the total current through a parallel circuit be calculated?

Answer 31

It is the sum of the currents through the separate components

Question 32

What type of electricity supply is mains?

Answer 32

Alternating current (AC)

Question 33

Describe direct current supplies

Answer 33

Current that is always flowing in the same direction (created by a direct voltage)

Question 34

Describe alternating current supplies

Answer 34

Current which constantly changes direction

Question 35

What is a three-core cable?

Answer 35

Three wires (core of copper) with a brown (live wire), blue (neutral wire) and green / yellow (Earth wire)

Question 36

What is the function of the neutral wire (blue)

Answer 36

Completes the circuit carrying current away (OV)

Question 37

How can the live wire cause an electric shock?

Answer 37

Touching a live wire (230V) puts a large potential difference across your body (0V) which can shock / kill

Question 38

Describe the characteristics of the UK mains supply

Answer 38

230V AC with a frequency of 50Hz

Question 39

What is the function of the live wire (brown)?

Answer 39

Provides the alternating potential difference (230V)

Question 40

What is the function of the Earth wire (green / yellow)?

Answer 40

Acts as a safety device, stopping the appliance casing from becoming live (OV)

Question 41

Q. What equations links power, current and potential difference?

Q. What equation links power, current and resistance?

Answer 41

Power = current x potential difference

P = I V

Power = current² x resistance

P = I² R

Question 42

What determines how much energy an appliance transfers?

Answer 42

How long the appliance is on for and the power of the appliance

Question 43

Q. What equation links energy transferred, power and time?

Q. What equation links energy transferred, charge flow and potential difference?

Answer 43

Energy transferred = power x time

E = P t

Energy transferred = charge flow x potential difference

E = Q V

Question 44

In the UK, how is electricity distributed?

Answer 44

Via the National Grid

Question 45

How is the National Grid made as efficient as possible?

Answer 45

A high potential difference and a low current which, for a given power, decreases energy lost by heating (the wires / surroundings)

Question 46

What is ‘done’ when charge flows in a circuit?

Answer 46

Work (done)

Question 47

What effects of the power of a circuit?

Answer 47

• The potential difference and current which runs through it
• The energy transferred over a given time

Question 48

What does the National Grid comprise of?

Answer 48

A system of cables and transformers linking power stations to consumers

Question 49

How are step-up transformers used within the National Grid?

Answer 49

Step-up transformers increase the potential difference of the National Grid to 400,000V