P2 - Energy Transfer By Heating✔️

Question 1

Define thermal conductivity?

Answer 1

Thermal conductivity is a measure of how well a material conducts energy when it is heated.

Question 2

Requirments for a material to be a good insulator?

Answer 2

Needs to have low thermal conductivity,so energy transfer through them is as low as possible

Question 3

3 factors which the energy transfer per second, through a layer of insulating material depend on?

Answer 3

-the temperature difference across the material
-the thickness of the material
-the thermal conductivity of the material

Question 4

2 ways to reduce energy transfer?

Answer 4

-thermal conductivity of the insulating material should be as low as possible

-thickness of the insulating layer should be as thick as practically possible

Question 5

What is a ‘black body’ in regard to infared radiation?

Answer 5

Is an object that absorbs all the radiation that hits it and dosent reflect or transmit
any radiation - good absober

Question 6

What happens when an object absorbs radiation faster then it emits radiation?

Answer 6

The tempertaure will increase

Question 7

Why are light-coloured shiny blankets used to keep accident survivors warm?

Answer 7

A light,shiny outer surface emits a lot less raditaion than a dark,matt surface - so less infared radiation is emmited than an ordnary blanket

Question 8

3 factors which the tempertaure of a heated object depends on?

Answer 8

-the amout of energy supplied to it

-the mass of the substance

-what teh substance is

Question 9

Define specific heat capacity?

Answer 9

The specific heat capacity of a substance is the energy needed to raise the tempertaure of 1 kg of the substance by 1 degree

Question 10

Equation for energy transferred?

Answer 10

Energy transferred = mass x specific heat capacity x tempertaure change

Question 11

Unit for specific heat capacity?

Answer 11

J/kg°C

Question 12

How to find specific heat capacity of a substance?

Answer 12

Use a joulemeter and a thermometer to measure energy transfered and temperature change

And then use c = ∆E / m ∆θ

Question 13

4 ways to reduce rate of energy transfer at home?

Answer 13

-loft insulation

-cavity wall insulation

-aluminium foil between a radiator pannel and the wall

-double glazed windows

Question 14

Explain how loft insulation reduces energy transfer?

Answer 14

Use fibreglass which is a good insulator becuase the air between the fibres help to reduce the rate of energy transfer by conduction

Question 15

Explain how cavity wall insulation reduces energy transfer?

Answer 15

Cavity of an outer wall is the space between two layers of brick that make up the wall - insulation is pumped into the cavity and is a better insulator then air, which it replaces because it traps the air in small pockets

Question 16

Explain how aluminium between a radiator pannel and the wall reduces energy transfer?

Answer 16

Reflects radiation away from the wall and so reduces the rate of energy transfer by radiation

Question 17

Explain how double-galzed windows reduces energy transfer?

Answer 17

Has dry air or a vacuum between the panes and the thicker the glass and the lower its thermal conductivity is, the slower the rate of transfer of energy through it by conduction will be - the vacuum also prevents energy transfer by convection

Question 18

Why are solar panels usefull?

Answer 18

Solar panels absorb infared radiation from the sun and are used to generate electricity directly or to heat water directly which reduces cost of heating your house

Question 19

How do external walls with thicker bricks help reduce energy transfer?

Answer 19

If the external walls have thicker bricks and lower thermal conductivity,the rate of transfer of energy from the inside of the building to the outside will be lower

Question 20

Describe the effect of an objects mass and the time it takes for the tempertaure to increase?

Answer 20

The greater the mass of an object, the more slowly its temperature increases when it is heated

Question 21

Method - RP measuring the specific heat capacity of different materials

Answer 21

1)set up the apparatus with a power supply hooked up to a heater and ammeter to record the current and then get a block of a chosen material with two holes (one for the heater and the other for the thermometer to go into

2)measure the mass of the block and wrap in an inulating material to reduce energy transfer from the block to the surrounings insert the thermometer and heater

3)measuer the inital temperature and set the power supply to be 10V - turn on the power supply and start a stopwatch

4)as the block heast up take readings of the temperature and current every 10 min and record in a table

5)when you have enough reedings swicth of the power supply and repeat with different materials

Question 22

Why do we wrap the block in an insulating material - RP measuring the specific heat capacity of different materials?

Answer 22

Wrap in a thick insulating material eg newspaper to reduce energy transfered from the block to the surroundings which would effect the results - also pour a drop of water into the hole that the thermometer goes into because it is a better conuctor of heat then air as it also gets ri of any air traped in the hole

Question 23

Why does the metal block heat up - RP measuring the specific heat capacity of different materials?

Answer 23

The current in the circuit does work on the heater,transferring energy electrically from the power supply to the heaters thermal energy store - energy is then transferred to the materials thermal energy store by heating, causing the materials tempertaure to increase - this increase is then measure with the thermometer

Question 24

How to caculate the power supplied to the heater and how much energy has been transffered to the heater - RP measuring the specific heat capacity of different materials?

Answer 24

1)caculate the power supplied to the heater, using power = voltage x current (we have the current from the ammeters reading and we know the voltage was set to 10 V)

2)work out how much energy has been transferred to the heater at the time of each tempertaure reading using the formula, energy = power x time (where, t is time in seconds since the experiment began)

Question 25

Indepent variable - RP measuring the specific heat capacity of different materials?

Answer 25

Block of material used - you could improve the experiment to also measure the specifc heat capactity of liquids - place the heater and thermometer in an insulated beaekr filled with a known mass of the liquid

Question 26

control variables - RP measuring the specific heat capacity of different materials?

Answer 26

-size and mass of the block of material
-volatge used

Question 27

dependent variable - RP measuring the specific heat capacity of different materials?

Answer 27

Measuring the temperature and also the energy transferred (using the equations Power = voltage x time and then energy transferred = power x time ) we already have the mass so we can use:

Energy transferred = mass x specific heat capacity x temperatrue change

Question 28

Equipment list - RP measuring the specific heat capacity of different materials?

Answer 28

-block of material
-power supply
-heater
-thermometer
-insulating layers/material
-ammeter
-stopwatch
-measuring scale - measure mass of block

Question 29

Safety - RP measuring the specific heat capacity of different materials?

Answer 29

Wear eye protection and take car with hot immersion heater - work in a safe and clear enviorment

Question 30

Method - RP 2 measuring effectiveness of different insulators?

Answer 30

1)boil water using kettle and pour 80ml into a 100ml beaker and then place in an empty large beaker

2)place a piece of cardboard with a hole in for the thermometer over the opening of the large beaker to act as a lid

3)record the temperature of the water and start the stopwatch - record the temperature every 5 min

4)repeat steps 1 - 3 but this time fill the gap between the large beaker and small beaker with an insulating material (use the same volume of water)

5)repeat with different insulating materials then draw a cooling curve graph by plotting temperature against time for each insulator and determine which material is the bet insulator

Question 31

Saftey - RP 2 measuring effectiveness of different insulators?

Answer 31

Be careful when pouring the near boiling water from the kettle - if you splash any on you wash with cold water

Question 32

Equipment - RP 2 measuring effectiveness of different insulators?

Answer 32

-beaker (about 250ml)
-thermometer
-kettle to heat water
-piece of cardboard
-scissors
-stopwatch
-insulating maetrials - bubble wrap, cardboard, newspaper
-rubber bands to secure baterial to beaker

Question 33

Independent variable - RP 2 measuring effectiveness of different insulators?

Answer 33

Change the insulating material each time eg use bubble wrap, cardboard, cloth

Question 34

Control variable - RP 2 measuring effectiveness of different insulators?

Answer 34

-volume of water
-starting temperature

Question 35

Dependent variable - RP 2 measuring effectiveness of different insulators?

Answer 35

Temperature decrease and the time it takes each material

Question 36

Define conduction?

Answer 36

Process where vibrating particles transfer energy to neighbouring particles

Question 37

Define convection?

Answer 37

Where energetic particles move away from hotter to cooler regions - can happen in gases and liquids