2. Thermal physics (9-11)

Question 1

distinguishing properties of solids, liquids and gases & terms for the changes in state

Answer 1

solid- rigid, fixed shape, fixed volume, can’t be squashed, does not take shape of container

liquid- not rigid, no fixed shape, fixed volume, can’t be squashed, takes shape of container

gas- not rigid, no fixed shape, fixed volume, can be squashed, EXPANDS to fill its container

Question 2

Describe the particle structure of solids, liquids and gases in terms of the arrangement, separation and motion of the particles

Answer 2

solid- packed closely in regular pattern, vibrate about fixed position because of strong intermolecular forces

liquid- packed slightly less closely and arranged randomly, vibrate and move around, slide past each other

gas- widely separated, move freely bouncing off one another

Question 3

what affects the properties of solids, liquids and gases. density and energy highest to lowest

Answer 3

the forces and distances between particles (atoms, molecules, ions and electrons) and the motion of the particles affects the
properties of solids, liquids and gases

Density- solid, liquid, gas (volume less in solid)
Energy- gas, liquid, solid (strong intermolecular forces in solid)

Question 4

fixed points

Answer 4

celsius scale has two fixed points- known values to calibrate a measuring instrument

0- melting point of pure ice at atm p
100- boiling point of pure water at atm p

Question 5

lowest possible temperature

Answer 5

there is a lowest possible temperature (−273°C), known as absolute zero, where the particles have least kinetic energy

T (in K) = θ (in °C) + 273

Question 6

Describe the pressure and the changes in pressure of a gas

Answer 6

the particles move around inside its container bumping into the sides. the gas causes pressure on walls of container because the gas particles are constantly colliding. change in momentum greater

these collisions produce a net force to the walls of gas container so a gas at higher pressure has more force exerted per unit area and more frequent collisions.

Question 7

Describe qualitatively, in terms of particles, the effect on the pressure of a fixed mass of gas of:

(a) a change of temperature at constant volume
(b) a change of volume at constant temperature

relationship between pressure and volume

Answer 7

temperature inc- more kinetic energy so particles move faster and hit walls of container more often and with greater force. pressure inc

volume dec- gas particles compressed into a smaller space so they collide more often and pressure inc

greater rate of change of momentum per unit area on walls
molecules hit walls more often
molecules travel shorter distance between collisions with walls

pV = constant for a fixed mass of gas at constant temperature
p-y axis and v- x axis inversely ( C )
P-y axis and 1/v- x axis direct ( / )

Question 8

evidence for the kinetic particle model of matter, define AND describe brownian motion

Answer 8

random motion of microscopic particles in a suspension is evidence for the kinetic particle model of matter

BM- the motion of small particles suspended in a liquid or a gas caused by molecular bombardment.

1. moving particles are constantly knocked about by the fast-moving molecules of air.
2. particles follow random path, frequently changing direction because air molecules repeatedly hit the smoke particle.
3. the air molecules are light but fast moving so have enough kinetic energy to cause the smoke particle change direction on impact.

Question 9

describe thermal expansion of solids, liquids and gases at constant pressure

Answer 9

increase in volume of a material when temperature increases

when a material expands, its particles do not get any bigger. Due to an increase in temperature they have more kinetic energy so particles can move around more and take up more space, this separation of particles makes the substance bigger

Question 10

Explain, in terms of the motion and arrangement of particles, the relative order of magnitudes of the expansion of solids, liquids and gases as their temperatures rise

Answer 10

gas expand the most- its particles move about rapidly when heated, and it is easy for them to push walls of container further apart, so the gas takes up more space

solids expand the least- strong electrostatic force of attraction holding molecules together

Question 11

relationship between temperature and energy of particles

Answer 11

a rise in the temperature of an object increases its internal energy.

an increase in the average kinetic energies of all of the particles in the object

Question 12

Define specific heat capacity

Answer 12

quantity of thermal energy needed to raise temperature of an object per degree Celsius 1 °C. the energy required per unit mass per unit temperature increase

c = ∆E/m∆θ

heating causes particles to gain K.E and speed up. it takes more energy to raise the temperature of a large amount of water because more particle need to have their speed changed.

Question 13

Describe melting and boiling in terms of energy and change in state

Answer 13

M- temperature at which a solid melts to become a liquid

B- temperature at which liquid changes to a gas at constant pressure

AT MP or BP, even if more thermal energy is added, the S/L doesn’t get warmer. The addition energy goes into overcoming intermolecular forces bw molecules of S/L, so thermal energy is not rising.

Question 14

Describe condensation and solidification in terms of particles

Answer 14

Particles lose K.E and move more slowly, they no longer have enough energy to overcome the intermolecular forces of attraction bw molecules. The particles get closer. they only have enough energy to vibrate about their fixed position/ flow over one another

Question 15

Describe evaporation

Answer 15

more energetic particles escape from the surface of a liquid. the particles that remain are those with less energy so the particle of liquid have less energy on average so the temperature of the water decreases and water cools down.

cooling of an object in contact with an evaporating liquid as the liquid cools down, solid cools down too. this is used in refridgerators and air conditioning units.

Question 16

Describe the differences between boiling and evaporation

Answer 16

B- happens at boiling point, happens throughout the liquid, bubbles formed, kinetic energy has to be increased

E- occurs at all temperatures, only happens at surface, no bubbles, takes energy from substance itself

Question 17

Factors that affect evaporation

Answer 17

temperature- increases kinetic energy of molecules so more molecules will have enough energy to overcome the intermolecular forces and escape

surface area- more particles are close to surface, so they can escape easily

air movement- dries air and particles escape as they are blown away

Question 18

How does conduction take place in a metal when heated

Answer 18

delocalised electrons move through metal, collide with distant particles & carry energy through the metal

lattice vibrations transfer energy to neighbouring particles/ particles vibrate and cause nearby particles to vibrate/ vibrating particles collide with particles transferring energy

from hotter end to cooler end as at hotter end atoms vibrate more

Question 19

why is thermal conduction bad in gases and most liquids

Answer 19

weaker intermolecular forces and particles are further apart, which makes the vibrations of particles harder

Question 20

Explain convection in liquids and gases

Answer 20

transfer of energy by a material by the movement of material itself. no in solids as particles are in fixed position so can’t flow.

both fall and rise of temperature can create a convention current.

Question 21

convention when temperature increases and decreases

Answer 21

molecules push each other apart ,making it expand
it become hot so less dense than surroundings
hot lg rises and cooler lg moves in to takes its place
eventually hot lg cools, contracts and sinks back down again

molecules move closer together, making it contract
it become cold so more dense than surroundings
cold lg falls so warmer lg moves in to take its place
eventually hot lg cools, contracts and sinks back down again

Question 22

describe radiation

Answer 22

thermal radiation is infrared radiation and that all objects emit this radiation & it does not require a medium

Question 23

rate of energy and temperature

Answer 23

for an object to be at a constant temperature it needs to transfer energy away from the object at the same rate that it receives energy

if the rate at which the object receives energy is less than the rate at which it transfers energy then the object will cool down

if the rate at which the object receives energy is more than the rate at which it transfers energy then the object will heat up

Question 24

Describe the effect of surface colour and texture on the emission, absorption and reflection of infrared radiation

Answer 24

BEST
absorber- dull black
reflector- white shiny
emitter- black dull

WORST
absorber- white shiny
reflector- black dull
emitter- white shiny

Question 25

how the temperature of the Earth is affected by factors controlling the balance between incoming radiation and radiation emitted from the Earth’s surface

Answer 25

(white surface) is a poor absorber / good reflector / poor emitter of IR / radiation
OR black / other surface is a good absorber / poor reflector / good emitter of IR / radiation

any one from:
 (the white surface) increases in temperature less when facing the Sun
 (the white surface) decreases in temperature less when facing away (from Sun)
 the black / other surfaces increases in temperature more when facing the Sun
 the black / other surface decreases in temperature more when facing away (from Sun)
 less variation in temperature on white surface (during one whole rotation)

Question 26

Describe experiments to distinguish between good and bad emitters of infrared radiation

Describe experiments to distinguish between good and bad absorbers of infrared radiation

Answer 26

equipment- black container, white container, thermometers

measurements made
warm / hot water in container and temperature decreases recorded or time to reach a given temperature / to cool or
warm

how a conclusion is reached-
better emitter surface cools quicker

Question 27

(a) heating objects such as kitchen pans
(b) heating a room by convection
(c) a fire burning wood or coal
(d) a radiator in a car