Properties of Matter

Question 1

What is energy?

Answer 1

Energy is the quantitative property that must be transferred to an object in order to perform work on it.

Question 2

When is work done?

Answer 2

A force is said to do work if there is a movement of the point of application in the direction of the force.

Question 3

What is gravitational potential energy?

Answer 3

The work done against the force of gravity to lift an object is called gravitational potential energy.

Question 4

Potential energy formula

Answer 4

E [P] = mgh : where m is the mass, g is the gravitational acceleration and h is the height.

Question 5

What is kinetic energy?

Answer 5

The work done to accelerate a mass to a certain speed is called kinetic energy. It is the energy of a moving body.

Question 6

Kinetic energy formula

Answer 6

E [K] = ½ mv² : where m is the mass and v is the velocity.

Question 7

What is heat capacity?

Answer 7

The heat capacity of a material is the measure of how much heat energy it can absorb.

Question 8

What is specific heat capacity?

Answer 8

The specific heat capacity of a material is the measure of how much energy is needed to raise the temperature of 1kg of that material by 1°C.

Question 9

Heat energy formula

Answer 9

E [H] = cmΔt where c is the specific heat capacity (J/kg°C), m is the mass and Δt is the change in temperature.
E [H] = mℓ where m is the mass and ℓ is the specific latent heat.

Question 10

What is latent heat?

Answer 10

Latent heat is the energy used to change the state of a material. Unit: J/kg.

Question 11

What is specific latent heat of vaporisation?

Answer 11

The energy required to change 1 kg of liquid at its boiling point to gas without a change in temperature is called specific latent heat of vaporisation.

Question 12

What is specific latent heat of fusion?

Answer 12

The energy required to change 1 kg of solid at its melting point to liquid without a change in temperature is called specific latent heat of fusion.

Question 13

What is specific latent heat? [general]

Answer 13

The specific latent heat of a material is the amount of energy required to change the state of 1 kg of that material without changing the temperature.

Question 14

Describe a solid.

Answer 14

• Particles are tightly packed together.
• Has a fixed shape and volume.
• Cannot be compressed.

Question 15

Describe a liquid.

Answer 15

• Particles are packed less tightly together so they are not as close.
• Has a fixed volume but no fixed shape.
• Cannot be compressed easily (but compression is possible.

Question 16

Describe a gas.

Answer 16

• Particles are far apart + can move easily.
• No fixed shape or volume.
• Can be easily compressed.

Question 17

What are the properties of gases [kinetic theory]?

Answer 17

• The particles in a gas move about freely so they take up the shape+volume of whatever they are contained in.
• The temperature of a gas measures the average kinetic energy of all particles in the gas.
• Pressure in a gas is caused by gas particles colliding with the surfaces of a container and exerting a force on them.

Question 18

What is pressure?

Answer 18

Pressure is the force applied per unit area.

Question 19

Pressure formula

Answer 19

P = F/A where F is the force and A is the area.

Question 20

How can the pressure in a fluid be increased?

Answer 20

• Having more collisions [more particles per unit volume].

- Colliding with more force [faster moving particles].

Question 21

Boyle’s Law

Answer 21

P1V1 = P2V2

Question 22

Charles Law

Answer 22

V1/T1 = V2/T2

Question 23

Pressure Law

Answer 23

P1/T1 = P2/T2

Question 24

Gas Laws equation

Answer 24

P1V1/T1 = P2V2/T2

Question 25

State Boyle’s Law.

Answer 25

For a fixed mass of gas at a constant temperature, the pressure is inversely proportional to the volume of the gas.

Question 26

State Charles’ Law.

Answer 26

For a fixed mass of gas at a constant pressure, the volume is directly proportional to the temperature of the gas.

Question 27

State Pressure Law.

Answer 27

For a fixed mass of gas at a constant volume, the pressure is directly proportional to the temperature of the gas.