Paper 1 - 2a Electrical Circuits and Static Electricity

Question 1

Draw the circuit symbol for a lamp

Answer 1

an X in a circle

Question 2

Draw the circuit symbol for a diode

Answer 2

An arrow head in a circle

Question 3

Draw the circuit symbol for a resistor

Answer 3

A rectangular box

Question 4

Draw the circuit symbol for a variable resistor

Answer 4

A rectangular box with a diagonal arrow

Question 5

Draw the circuit symbol for an LED

Answer 5

Same as a diode with 2 arrows points away

Question 6

Draw the circuit symbol for a fuse

Answer 6

A rectangular box with a horizontal one running through it

Question 7

Draw the circuit symbol for a voltmeter

Answer 7

V in a circle

Question 8

Draw the circuit symbol for an ammeter

Answer 8

A in a circle

Question 9

Draw the circuit symbol for a thermistor

Answer 9

a rectangular box with a diagonal line through it

Question 10

Draw the circuit symbol for an LDR

Answer 10

A rectangular box in a circular with 2 arrows pointing towards it

Question 11

Which way does current flow in a circuit?

Answer 11

Positive to negative (anode to cathode)

Question 12

Define current

Answer 12

Rate of flow of charge (electrons) measured in amps (A)

Question 13

Define potential difference

Answer 13

work done / energy per unit charge (V = E/Q)

Question 14

State the equation that links charge, current and time.

Answer 14

Charge = Current x time Q = It

Question 15

What are the units of charge?

Answer 15

Coulombs (C)

Question 16

What is the relationship between current and resistance?

Answer 16

As resistance increases, current decreases and vice versa

Question 17

State the equation that links potential difference, current and resistance

Answer 17

Potential difference = current x resistance V = IR

Question 18

State the units of potential difference

Answer 18

Volts (V)

Question 19

State the units of resistance

Answer 19

Ohms (?)

Question 20

State the relationship between the length of wire and its resistance.

Answer 20

As the length of the wire increases the resistance increases. They are directly proportional

Question 21

As more resistors are added in series what happens to the total resistance?

Answer 21

Total resistance increases (Rt = R1 + R2 + …..)

Question 22

State Ohm’s law

Answer 22

Current is directly proportional to potential difference constant temperature. this means resistance remains constant.

Question 23

Sketch the I-V graph for a resistor

Answer 23

A straight line through the origin (current and potential difference are directly proportional - an ohmic conductor)

Question 24

Sketch the I-V graph for a bulb

Answer 24

It starts off as a straight line through the origin but the the current levels offs so the graph curves. Non ohmic conductor

Question 25

How does the resistance of a lamp change as it heats up?

Answer 25

As temperature increases resistance increases. Atoms/ions have more energy so vibrate more taking up more space making it harder for electrons to travel down the wire.

Question 26

Sketch the I-V graph for a diode

Answer 26

Current can only flow in one direction. So zero current in the negative direction but in the positive direction current increases slightly after the origin. Non ohmic conductor

Question 27

State the relationship between temperature and resistance for a thermistor

Answer 27

As temperature increases resistance decreases.

Question 28

State some uses of thermistors

Answer 28

In thermostats to turn circuits on/off if they get too hot to cold e.g. in an iron, hair straighteners etc

Question 29

State the relationship between resistance and light intensity for a LDR

Answer 29

As light intensity increases increases, resistance decreases

Question 30

State some uses of LDRs

Answer 30

In circuits to switch lights on when it gets dark

Question 31

State the rule for current in a series circuit

Answer 31

Current - same flowing through each component

Question 32

State the rule for potential differnce in a series circuit

Answer 32

P.d. of the power supply is shared between the other components

Question 33

State the rule for current in a parallel circuit

Answer 33

Calculate current along each junction using I=V/R. Current across each junction adds together to calculate total current drawn from power supply.

Question 34

State the rule for potential difference in a parallel circuit

Answer 34

Each junction has the same potential difference as the power supply across it.

Question 35

State the rule for resistance in a parallel circuit

Answer 35

Resistance decreases in a parallel circuit. The resistance is always less than the smallest resistor.

Question 36

Why does resistance decrease in parallel?

Answer 36

As more current is drawn from the power supply for the same potential difference. As R=V/I dividing by a larger current leads to a smaller resistance.

Question 37

What happens when electrical current flows through a resistor?

Answer 37

Electrical energy is transformed into heat energy

Question 38

What is a short circuit?

Answer 38

An electrical circuit that allows current to travel along unintended paths with no or very low resistance. Resistance low = current very high. This will cause the battery to overheat.

Question 39

Why do lamps blow when they have just been turned on?

Answer 39

The lamp is cold so low resistance. As a result high current flows - sometimes enough to melt the wire in the bulb.

Question 40

In a potential divider, what happens to voltage when two resistors are equal?

Answer 40

They share applied voltage equally

Question 41

In a potential divider, a current passes through a resistor then through a thermistor. How does the voltage across each component change as temperature decreases?

Answer 41

The thermistor cools. The resistance of the thermistor rises, taking a larger share of input voltage. As the input from the battery is constant so output voltage rises across the fixed resistor.

Question 42

In a potential divider, a current passes through a resistor then through a thermistor. How does the voltage across each component change as temperature increases?

Answer 42

The thermistor heats up. The resistance of the thermistor decreases, taking a smaller share of input voltage. As the input from the battery is constant so output voltage decreases across the fixed resistor.

Question 43

In a potential divider, a current passes through a resistor then through an LDR. How does the voltage across each component change as light intensity increases?

Answer 43

If light intensity increases the resistance of the LDR decreases. The LDR will take a smaller share of the input voltage. As the input voltage from the battery is fixed the output voltage across the fixed resistor must increase.

Question 44

In a potential divider, a current passes through a resistor then through an LDR. How does the voltage across each component change as light intensity decreases?

Answer 44

If light intensity decreases the resistance of the LDR increases. The LDR will take a larger share of the input voltage. As the input voltage from the battery is fixed the output voltage across the fixed resistor must decrease.

Question 45

What objects can create an electric field?

Answer 45

Any charged object

Question 46

How is the strength of the electric field related to the distance from the object?

Answer 46

The further away from a charged object the weaker the field

Question 47

what is the name of the force when charged objects attract or repel each other? is this a contact or non contact force?

Answer 47

Electrostatic attraction/repulsion. It is an example of a non contact force

Question 48

Sketch the field lines around a positive charge.

Answer 48

A radial field with the arrows pointing away from the charge

Question 49

Sketch the field lines around a negative charge.

Answer 49

A radial field with the arrows pointing towards the charge

Question 50

How are static charges created?

Answer 50

Insulating materials are rubbed against each other. The force of friction can run electrons onto or off the material.

Question 51

If an insulator gains electrons what happens to its charge?

Answer 51

It becomes negative

Question 52

If an insulator loses electrons what happens to its charge?

Answer 52

It becomes positive

Question 53

If two positive charges are close to each other, what will happen?

Answer 53

They will repel

Question 54

If two negative charges are close to each other, what will happen?

Answer 54

They will repel

Question 55

If a negative and a positive charge are close to each other, what will happen?

Answer 55

They will attract

Question 56

What happens to an object that is isolated from the earth if a static charge builds up?

Answer 56

As static charge builds up the potential difference on the object increases. Eventually the p.d. gets so large that the charge can jump from the object to the earth in the form of spark.

Question 57

What do electric field lines show us?

Answer 57

The closer the lines the stringer the field/force. If the line get further away from each other the field/force gets weaker. The arrow heads show the direction of force a positive charge would feel.

Question 58

What is an electric field?

Answer 58

The region where a charged object would experience a force