Required Practicals

Question 1

Describe the experiment used to calculate the specific heat capacity of a material:

Answer 1

• choose material and measure its mass
• wrap insulation around material
• smear petroleum jelly around the blub end of the thermometer
• measure starting temperature of material
• put heater in material with ammeter and voltmeter connected
• turn power pack on and start timing
• record ammeter and voltmeter readings every 60 seconds. Record temperature at same intervals too.
• turn off power pack (10 mins) and record highest temp
• calculate power of heater and then energy transferred at each time interval
• plot temp change (y) to energy transferred (x) graph

Question 2

How do you calculate the specific heat capacity of the material using the temp change/energy transferred graph?

Answer 2

c = 1/(mass x gradient)

Question 3

Why is it important to stir water regularly when heating?

Answer 3

To allow an even distribution of thermal energy throughout the volume of water

Question 4

Why is petroleum jelly used on the bulb end of the thermometer?

Answer 4

To provide good thermal contact between the block and thermometer for accurate reading

Question 5

What happens if the heating element is not in contact with the metal block?

Answer 5

• There is a layer of air between the heating element and block
• Dissipation of energy to internal energy store of surroundings
• Calculated specific heat capacity may be greater than the actual value

Question 6

Describe the experiment which investigates the effect of layers of insulation:

Answer 6

• Set up beakers with different layers of insulating material around them
• Pour hot water into beakers
• Use cardboard with hole for thermometer as lid for beakers
• Put thermometers through holes and into water
• Measure start temp of water and then every five minutes
• Record measurements
• Continue for 20 minutes
• Plot cooling curve (temp/time)

Question 7

Whats the conclusion to be drawn between heat loss and number of layers of insulating material?

Answer 7

• Greater the number of insulating layers

- lower the rate of thermal energy transfers

Question 8

Why do many layers of insulating material prevent something cold heating?

Answer 8

• Many layers trap air between them
• Air has low thermal conductivity
• Reduces the rate of thermal energy transfer

Question 9

Describe the method to investigate how the length of wire affects resistance discussing the preventtion of overheating and improving accuracy of results:

Answer 9

• Measure the length of wire (connected in circuit) using a metre rule
• Use a low value p.d. to avoid large current which will mean wire gets hot
• Temperature affects resistance so it must be controlled as far as possible
• Record the ammeter and voltmeter readings
• Divide the voltmeter reading by the ammeter reading to get the resistance of the wire
• Open the switch between measurements to prevent wire overheating
• repeat procudure for 10 different lengths of wire connected between (X) and (Y)
• Use the full range of lengths of wire
• repeat measurements for same lengths of wire
• keep wire tight to improve accuracy of measurements
• check data for anomalous results, repeat experiment if anomalies identified
• calculate the mean of the two resistance values for each length to minimise the effect of random errors

Question 10

Describe the method to investigating resistors in series and in parallel:

Answer 10

• Set up battery, with ammeter and two resistors in series with a voltmeter in parallel to both resistors
• Turn on power pack at 4V
• Measure p.d. across power pack
• Measure p.d. across each resistor and current through them
• Calculate total resistance of circuit with resistors in series
• Repeat steps for resistors in parallel
• Calculate total resistance of the circuit with resistors in parallel
• Use R = V/I

Question 11

Describe the relationship between the length of a wire and its resistance:

Answer 11

The length of a wire is directly proportional to the resistance of the wire

Question 12

What happens to the current as the resistance increases?

Answer 12

Current reduces

Question 13

How does adding a bulb to a circuit stop the wire from overheating?

Answer 13

• Because it increases the resistance
• thus reduces the current
• and the current has the heating effect

Question 14

Describe how you would calculate the density of a regular shaped object:

Answer 14

• Measure length, width and height of obhject using ruler
• calculate volume using volume = length x width x height
• measure mass ofobject using balance
• calculate denity of object using density = mass/volume

Question 15

Describe how you could calculate the density of an irregular shaped object:

Answer 15

• part fill beaker with water and measure the volume
• place object in water
• measure new volume
• calculate the volume change/ water displacement
• this is the object’s volume
• measure mass of object using balance
• calculate density of object using density = mass/volume

Question 16

Describe how you could calculate the density of a liquid:

Answer 16

• measure mass of empty measuring cylinder
• fill measuring cylinder with liquid
• measure the volume of liquid
• measure the mass of the measuring cylinder wuth the liquid
• calculate the mass of the liquid by calculating the difference between the two mass measurements
• calculate the density of the liquid using the formula: density = mass/volume

Question 17

How do you calculate the resistance of a component from an I/V graph?

Answer 17

• Calculate the gradient

- Resistance = inverse of gradient

Question 18

How do you keep a circuit at a constant temperature whilst taking I/V readings?

Answer 18

-Turn off the power supply between readings

Question 19

Describe how to use a circuit to investigate how current through a diode affects the resistance of the diode:

Answer 19

• Use ammeter to measure current
• Use voltmeter to measure the potential difference
• Alter the resistance of the variable resistor to change current in the circuit or change p.d.
• Take recordings at varying currents
• Plot a current(y) against potential difference (x) graph
• Calculate resistance of diode from pairs of points on the graph, using R = V/I
• calculate resistance for large enough range of currents

Question 20

What components are required to measure I/V characteristics with a resistor?

Answer 20

• Battery
• Variable resistor
• Ammeter
• Resistor
• Voltmeter(parallel)

Question 21

What components are required to measure I/V characteristics with a filament lamp?

Answer 21

• Battery
• Variable resistor
• Ammeter
• Filament lamp
• Voltmeter(parallel)

Question 22

What components are required to measure I/V characteristics with a diode?

Answer 22

• Power pack
• Variable resistor
• Ammeter
• Resistor
• Diode
• Voltmeter(parallel)

Question 23

What should be on each axis for the graph plotting the relationship between resistance and length of wire?

Answer 23

X-axis : length of wire

Y-axis : resistance

Question 24

What are the main features of a graph which show a directly proportional relationship?

Answer 24

• Line of best fit is a straight line

- that passes through the origin (0,0)

Question 25

How are resistance changes deduced from an I/V graph?

Answer 25

• Shown by changes in gradient
• An increasing gradient indicates the resistance is decreasing
• A decreasing gradient indicates the resistance is decreasing