Particle Model of Matter

Question 1

What is the definition of density? State the relevant equation with units

Answer 1

• the mass per unit volume of a material
• p=m/v
• density (kg/m^3), mass (kg), volume (m^3)

Question 2

State the different states of matter in order (least to most) of density of atoms

Answer 2

gas, liquid, solid

Question 3

Describe the particle arrangement of a solid

Answer 3

tightly packed in a regular arrangement, particles can only vibrate on the spot

Question 4

Describe the particle arrangement of a liquid

Answer 4

close together, but with an irregular arrangement, they can flow over each other

Question 5

Describe the particle arrangement of a gas

Answer 5

separated, with no regular arrangement, particles can move freely

Question 6

What is always conserved when a substance undergoes a change of state?

Answer 6

mass

Question 7

How does a change of state differ from a chemical change?

Answer 7

in a change of state, the material can return to having its previous properties if the change is reversed

Question 8

What is sublimation?

Answer 8

when a solid changes to a gas without passing through a liquid state

Question 9

What is evaporation?

Answer 9

when a liquid changes into a gas state

Question 10

What is the opposite of evaporatin?

Answer 10

condensation, which is when a gas changes into a liquid state

Question 11

When water boils in an open pan, why does the mass of the pan of water appear to decrease?

Answer 11

some of the water will evaporate and turn into water vapour, this will leave the pan meaning the mass of the pan will decrease, however the mass of the whole system remains constant

Question 12

Explain the processes involved when a bathroom mirror mists up

Answer 12

• hot water evaporates in water vapour
• this water vapour lands on the cooler mirror
• the vapour condenses and returns to liquid state on the mirror’s surface

Question 13

What is the internal energy of a substance?

Answer 13

• the energy stored by the particles
• the sum of the total kinetic and potential energies that make up the system

Question 14

How does the heating affect the energy of a substance?

Answer 14

• heating transfers energy to the substance
• it increases the energy of the particles that make up the substance

Question 15

What 2 things can heating a substance do?

Answer 15

raise its temperature and change the state of the substance

Question 16

What 3 factors determine the temperature change of a system?

Answer 16

• mass of substance being heated
• type of material (Specific heat capacity)
• energy inputted into the system

Question 17

State the equation used to calculate the temperature change when a substance is heated, give appropriate units

Answer 17

energy change = mass x specific heat capacity c temperature change
(J, kg, J/kg/degrees celsius, degrees celsius)

Question 18

Define specific heat capacity

Answer 18

the amount of energy needed to increase the temperature of 1kg of a substance by 1 degrees celcius

Question 19

Describe how the internal energy and temperature of a substance changes when a change of state occurs

Answer 19

• internal energy of the substance will be increased or decreased
• temperature of the substance will remain constant

Question 20

Define specific latent heat

Answer 20

the amount of energy needed to change the state of 1kg of a substance with no change in temperature

Question 21

State the equation for the energy required to change state. Give appropriate units

Answer 21

• energy to change state = mass x specific latent heat
• energy (J), mass (kg), specific latent heat (J/kg)

Question 22

What is the specific latent heat of fusion?

Answer 22

the energy required the change 1kg of a substance from solid state to liquid state without a change in temperature

Question 23

What is the specific latent heat of vaporisation?

Answer 23

the energy required to change 1kg of a substance from liquid state to gas state (vapour) without a change in temperature

Question 24

Describe the motion of molecules in a gas

Answer 24

they are in constant random motion

Question 25

What factor affects the average kinetic energy of gas molecules?

Answer 25

• the temperature of the substance
• the higher the temperature, the higher the average kinetic energy of the molecules

Question 26

What effect does increasing temperature have on the pressure of a gas when held at constant volume?

Answer 26

pressure of the gas will increase as the temperature increases

Question 27

Why does pressure increase as temperature increases (at a constant volume)?

Answer 27

• kinetic energy of molecules increases
• collisions between molecules becomes more frequent
• greater rate of change of momentum
• greater force and therefore pressure

Question 28

If gas A is at a low pressure, and gas B is at a high pressure, what can be said about the rate of collisions in each gas?

Answer 28

• there are more collisions per second in gas B than in gas A
• the rate of collisions in higher in B

Question 29

Describe the force that the pressure of a gas exerts on the walls of its container

Answer 29

• the net force acts at right-angles to the container’s surface
• the force increases as pressure increases

Question 30

Explain how increasing the volume of a gas results in a decrease of pressure

Answer 30

• molecules become more spread out and so time between collisions increases
• this reduces the rate of collisions
• rate of change of momentum decreases, and so force exerted on container decreases, resulting in a lower pressure

Question 31

What can be said about the product of pressure and volume for a fixed mass of gas at a constant temperature?

Answer 31

it is constant
p V = constant

Question 32

What is the unit used for pressure?

Answer 32

Pascal (Pa)

Question 33

What increases when you do work on a gas?

Answer 33

• the internal energy of the gas
• this can also lead to an increase of temperature

Question 34

Why does the temperature of air inside a bike pump increase when it is pumped?

Answer 34

• work is done on a gas when it is compressed
• doing work on a gas increases its internal energy, so also increases the average kinetic energy of the molecules
• temperature increases with an increase of average kinetic energy