Topic 2

Question 1

Pressure

Answer 1

Force(N)/Area(m^2)

Question 2

Pressure in liquid

Answer 2

Density x gravity x height

Question 3

Atmospheric pressure

Answer 3

Density x gravity x height

Question 4

Manometer

Answer 4

Measures pressure exerted by a fluid

Question 5

Brownian motion

Answer 5

the random motion of microscopic particles when observed through a microscope

Question 6

What does the movement of smoke particles tells you about air molecules [3]

Answer 6

1) Air molecules exist
2) Air molecules collide with the smoke particles
3) Air molecules are moving randomly

Question 7

Change of state [2]

Answer 7

1) The only thing that changes is its energy
2) Changes of state are physical changes and so they are reversible

Question 8

effect on the pressure of the gas as it heated at a constant volume [3]

Answer 8

1) Pressure increases
2) More frequent collision between the gas molecules and walls of container
3) Because gas particles have more kinetic energy from increased temperature

Question 9

Define Absolute zero

Answer 9

1) The lowest possible temperature / –273 °C / 0 K
2) Particles have the least kinetic energy

Question 10

Convert from kelvin to celcius

Answer 10

[celcius]+273= Kelvin

Question 11

Why do small particles move randomly?

Answer 11

1) Air molecules move randomly
2) Air molecules pushes the small particles around
3) These small particles undergo brownian motion

Question 12

Evaporation explained using kinetic particle model [2]

Answer 12

1) Higher kinetic energy cause faster moving molecules
2) Molecules escape from the water surface

Question 13

The movement of the gas molecules

Answer 13

1) High speed
2) Randomly in all directions

Question 14

Kinetic energy equation

Answer 14

Ek = 1/2mv^2

Question 15

gravitational potential

Answer 15

ΔEP = mgΔh

Question 16

Energy conservation [2]

Answer 16

1) Energy cannot be created or destroyed, only transferred from store to store
2) There is a finite amoutn of energy in a closed system that can be transferred from one store to another

Question 17

Why is energy transfer not 100% efficent

Answer 17

Energy can be dissipated (spread out) to the surroundings by heating and radiation

Question 18

Why is work done = to energy transfer?

Answer 18

1 joule = 1 Nm

Question 19

100Nm convert into Joules

Answer 19

100Joules

Question 20

What are the 2 types of work?

Answer 20

1) A force acting over a distance (Mechanical transfer pathway)
2) A flow of charged particles (electricaly transfer pathway)

Question 21

Work done on objects in equilibrium

Answer 21

1) When object is in equilibrium all forces acting on the object is balanced
2) Work is done on the object to change its motion

Question 22

Work done

Answer 22

Force x Distance (moved in the direction force applied)

Question 23

Unit of work

Answer 23

Joules or Nm

Question 24

Define Power

Answer 24

1) Amount of energy transferred per unit time (energy per second)
2) Amount of work done per unit time

Question 25

Useful energy vs Wasted energy

Answer 25

1) Useful energy is energy transferred for its intended purpose
2) Wasteful energy is energy transferred not useful for this purpose

Question 26

Define efficency

Answer 26

The ratio of useful energy output to total energy input

Question 27

4 types of energy transfer pathways

Answer 27

1) Mechanical: When a force acts on a body eg. collision
2) Electrical: Electricity transfer energy from a power source, such as a cell delievering it to components in a circuit
3) Heating: Energy can be transferred from radiation conduction, convection
4) Radiation: Light and sound carry energy and can transfer this from 2 points

Question 28

Efficency %

Answer 28

(Useful energy output/Total energy input) x100

Question 29

F formula for energy or work

Answer 29

Change in energy(J) / time (s)
Work (Nm) / t (s)

Question 30

Power formula in a circuit

Answer 30

Voltage x current

Question 31

Ways energy is stored

Answer 31

1) kinetic,
2) gravitational potential,
3) chemical,
4) elastic (strain),
5) nuclear,
6) electrostatic
7) internal (thermal)

Question 32

Where do most energy sources on earth come from

Answer 32

The sun

Question 33

What 3 energy do not come from the sun

Answer 33

1) Geothermal- heat from earth’s core
2) Nuclear- elements that make up a small portion of earth’s crust
3) Tidal- gravitational attraction of the moon

Question 34

3 fossil fuel

Answer 34

Coal
Natural gas (mostly methane) which is used in domestic boilers and cookers
Crude oil which is refined into petrol, diesel, and other fuels

Question 35

Define renewable source

Answer 35

A resource that can be replenished as it is used / is replaced (by nature) in less than a (human) lifetime

Question 36

Hydroelectrical dam

Answer 36

A hydroelectric dam transfers energy from the gravitational potential energy store of the water to its kinetic energy store mechanically to generate electricity

Question 37

Describe nuclear fusion

Answer 37

Small nuclei fuse together to form bigger nuclei

Question 38

Why is nuclear fusion not used as an energy source

Answer 38

Fusion requires very high temperatures
That cannot be produced currently

Question 39

To describe how the wind turbine produces electricity

Answer 39

1) Moving air spins the blades
2) kinetic energy from that turns on a generator
3) Generator produces electrical energy

Question 40

Explain how the tidal barrage (dam) produces electricity

Answer 40

1) Water has energy in its kinetic store
2) When the tide comes in and out the water goes through the turbine
3) turbine rotates and generates electricity

Question 41

To describe how energy released from fission reactions is used to generate electricity

Answer 41

1) Energy released from the nuclei fusion is transfered into the thermal store of water to produce steam
2) Steam turns a turbine
3) Turbin turns a generator which generates electricity

Question 42

Why Pressure is constant at constant depth

Answer 42

Because given it is the same liquid (same density) and on the same planet, the depth is the only factor affecting the pressure, so at the same depth the pressure remains the same

Question 43

Why do you need a large amount of force to break a small chunk of rock?

Answer 43

1) The attractive forces between atoms in the rock are strong
2) Work must be done to separate the atoms

Question 44

Why is that when water reaches its boiling point the temperature stops increasing?

Answer 44

All energy is used up by the particle to overcome intermolecular forces of attraction between water molecules, turning them from liquid to gas.

Question 45

Describe and explain 2 applications of thermal expansion

Answer 45

1) Expansion gaps in railway tracks, in hot weather the tracks expand and can buckle, the gap allows expansion with no damage to the track
2) Expansion gaps in roads, in hot weather the surface expand and can buckle, the gap allows expansion with no damage to the surface

Question 46

How volatile liquids cool the skin [4]

Answer 46

1) More energetic molecules escape from the liquid
2) molecules with less kinetic energy are left behind
3) Temperature of liquid decreases
4) Thermal energy is lost by skin

Question 47

Explain why are Liquids are incompressible

Answer 47

1) The molecules are touching
2) There are large intermolecular forces to stop them from moving closer

Question 48

Define Specific heat capacity

Answer 48

energy / heat required to raise the temperature by 1°C of 1 kg of a substance

Question 49

Specific heat capacity formula

Answer 49

Change in energy = mass x specific heat capacity x change in temperature

You can find the amount of thermal energy transferred into x substance

Question 50

Conduction vs convection

Answer 50

1) Conduction is where heat transfer between objects
2) Convection is heat transfer within the fluid

Question 51

Describe convection in water

Answer 51

1) As the water is heated, energy is transferred to the kinetic energy store of the water molecules, causing them to move faster
2) This increases the volume of the water, and hence decreases its density 3) The warm water rises.
4) Away from the heat the water cools, decreases in volume and falls, creating a convection current

Question 52

How does these 2 features keep liquid in a vacuum flask warm:

Shiny silver surface

The vacuum between the silvered surface (No particles)

Answer 52

1) Reflects thermal radiation
2) Heat loss by conduction and convection cannot take place because particles are needed for conduction or convection to take place

Question 53

To describe thermal conduction in terms of particles through a metal

Answer 53

1)Energy is transferred through the metal as electrons move
2) The electrons are delocalised

Question 54

Describe in terms of molecules why the temperature of a spoon increase when placed in hot liquid

Answer 54

1) The molecules of the hot liquid collide with the surface of the spoon
2) Energy is transferred from the hot liquid to the spoon
3) The amplitude of the vibration of the spoon’s molecules increase, this increases the spoon’s temperature.

Question 55

State what happens to the volume of molecules When gas changes to solid

Answer 55

Nothing changes

Question 56

Explain why balloons shrink in size when its cooler in terms of particle theory

Answer 56

1) particles have lower kinetic
energy
2) on average collide less often
3) Thus less pressure on rubber
4) Which pulls balloon material into smaller size

Question 57

What are the 3 sources of energy that isnt from the sun

Answer 57

1) Geothermal
2) nuclear
3) Tidal

Question 58

How is energy released in the sun

Answer 58

Nuclear fusion

Question 59

The research to investigate how energy released by nuclear fusion can be used to produce electrical energy on a large scale is being carried out

Answer 59

JUST FOR U TO KNOW

Question 60

pV=constant explained

Answer 60

Pressure Volume = constant
for a fixed mass of gas at constant temperature

Question 61

What does the rise in the temperature of an object also rises?

Answer 61

Its internal energy

Question 62

Boiling vs Evporating

Answer 62

1) Evaporation is slower, boiling is faster
2) Evaporation leads to cooling. boiling does not
3) Evaporation happens on the surface, boiling occurs throughout

Question 63

If the temperature T of an ideal gas is constant, then Boyle’s Law is giv

Answer 63

P is proportional to 1/V

Question 64

The relationship between the pressure and volume for a fixed mass of gas at constant temperature can also be written as

Answer 64

P1 V1=P2 V2 2