GENERA;

Question 1

Hairdryer takes current of 5.5A Why should you use a 7A fuse (1)

Answer 1

Nearest above

Question 2

Hairdryer has a plastic case so there is no need for an earth wire connection in the plug. Explain why the hairdryer is still safe to use (2)

Answer 2

• Plastic insulator / doesn’t conduct
• No risk of shock / electrocution

Question 3

Describe how the student should use each instrument to make her measurements as accurate as possible. (4)

Measuring cylinder; Electronic balance

Answer 3

MC - flat surface, eyes to water level

EB - Set to zero, avoid disturbing balance

Question 4

For a density experiment, state one factor that she should keep the same throughout her experiment and why (2)

Answer 4

• Temperature
• Can affect density/volume

Question 5

What is refraction (1)

Answer 5

• Change in direction of waves at a boundary

Question 6

Answer 6

• draw around block
• mark positions of incident and emergent rays
• (remove block and) draw refracted ray
• measure i; measure r
• range of values;
• (graph of) sin i against sin r
• graph is straight line
• gradient gives refractive index

Question 7

Why would a pattern show a uniform magnetic field (1)

Answer 7

• Parallel field

Question 8

Explain how to produce a uniform magnetic field (3)

Answer 8

• two (permanent / bar) magnets
• pole pieces north facing South
• magnets the correct distance apart

Question 9

Describe the method the teacher should use to correct for background radiation. (3)

Answer 9

• Remove source
• measure background
• find mean
• subtract (background value) from experimental values (with source);

Question 10

Technetium-99 is a gamma emitter with a half-life of 6 hours. Radioactive tracer in medicine.

Technetium-99 is injected into a patient’s bloodstream and carried around the body by the blood.

The radiation it emits is detected outside the body. Explain why technetium-99 is suitable for use as a tracer in this way.
(3)

Answer 10

• (gamma) can be detected outside the body
• long enough half life to get around the body (for use as tracer)
• half life falls to low levels soon after use;

Question 11

Describe how a sound wave moves through the air. (3)

Answer 11

• oscillation of (air) molecules
• longitudinal
• directions of vibration and propagation are parallel
• compression / rarefaction /pressure wave;

Question 12

Which force is responsible for artificial satellites following their paths around the Earth? (1)

Answer 12

• Gravity

Question 13

Moons are natural satillites of…(1)

Answer 13

• Planets

Question 14

State one similarity in the movement of planets and comets.
State one difference between the movement of planets and comets. (2)

Answer 14

• Both orbit the sun
• Different shape orbit

Question 15

Explain how the speed of a comet changes as it moves. (2)

Answer 15

• Speeds up closer to sun
• gravitation attraction from the Sun is stronger when the comet is close

Question 16

Suggest two safety precautions you should take when putting a plug into a mains socket (2)

Answer 16

• beware of frayed cable
• beware of damaged plug
• beware of water

Question 17

Describe the difference between a.c. and d.c. (2)

Answer 17

d. c. – electrons/current motion only in one direction
a. c. – electron/current motion reverses (regularly)

Question 18

Describe how the earth wire can act together with a fuse as a safety device. (2)

Answer 18

• large current in earth wire / charge flows to earth
• large current in fuse ; fuse melts
• stopping electrocution

Question 19

Explain why a mains plug can be safe to use even though it has no earth connection. (2)

Answer 19

• double insulation of plug, cable or appliance
• insulation stops current / does not conduct
• electric shocks are currents idea of a second insulation layer in case the first fails

Question 20

Describe how the students should find the average mass of a winged seed (2)

Answer 20

• Measure using balance
• Repeated readings

Question 21

Describe how radioactivity can be used to estimate the age of archaeological discoveries such as wooden boats and animal bones. (4)

Answer 21

• (living things contain) carbon (14)
• C14 is a beta emitter
• (radio)activity decreases (over time)
• (estimate) half-lives (since material was alive)
• ratio of C14 to C12 is fixed in living material

Question 22

Compare the processes of transferring energy by conduction and transferring energy by convection (3)

Answer 22

• CONDUCTION: from particle to particle
• by collision
• CONVECTION: particles able to move
• transfer the energy by kinetic energy

Question 23

Useful light energy emitted in J/s : 5
Describe what happens to the energy wasted by the filament lamp. (2)

Answer 23

• transformed into thermal energy
• dissipated to surroundings

Question 24

State two benefits of connecting lamps in parallel. (2)

Answer 24

• independent control
• failure of one allows others to continue working

Question 25

State two conditions required for total internal reflection to happen. (2)

Answer 25

• Must be more (optically) dense to less (optically) dense change;
• Angle of incidence > critical angle;

Question 26

The image in a plane mirror is a virtual image.
How can you tell this from your diagram? (1)

Answer 26

• Rays do not actually meet at the image

Question 27

Suggest 3 advantages of sending signals using optical fibres. (3)

Answer 27

• Less prone to noise
• less prone to heating
• send more information (per second)
• more data (per second)

Question 28

Describe the method the student should use to investigates how the resistance of a wire depends on its length (5)

Answer 28

• connect (crocodile) clip to wire
• Read ammeter and read voltmeter
• For known length
• measure length with a ruler
• Repeat readings in different places along the wire
• Take readings for different lengths
• Check meters for zero errors
• Disconnect/switch off between readings
• To avoid heating the wire;

Question 29

How to make a measuring cylinder give the most precise measurement? (1)

Answer 29

• Smallest scale divisions

Question 30

The most precise measuring cylinder may not give an accurate reading. Suggest why. (1)

Answer 30

• incorrect scale / calibration
• misreading scale / parallax /not at eye level
• meniscus makes it difficult to read
• might not be level / flat; reading may be between divisions;

Question 31

Explain how nuclear fission can lead to a chain reaction. (3)

Answer 31

• Nucleus splits
• Releasing neutrons
• Which are absorbed by different (uranium) nuclei;

Question 32

Nuclear fission releases energy. Explain the form that this energy takes. (2)

Answer 32

Kinetic (energy of particles)

• Of (fission) products / (daughter) nuclei / neutrons

Question 33

In a nuclear power station, what is the purpose of a moderator (1)

Answer 33

• Slow down neutrons

Question 34

Suggest 2 properties of radio waves that makes them suitable for use in communication. (2)

Answer 34

• Travel quickly / at the speed of light
• Can code information

Can travel long distances / through buildings / walls / objects

Not harmful/dangerous; can diffract / reflect;

Question 35

Harmful effect of microwaves (1)

Answer 35

Heating

Question 36

Use and harmful effect of UV rays (2)

Answer 36

Use : flourescent lamps

Harmful effect : sunburn

Question 37

Describe how a loudspeaker uses an electrical supply to produce sound waves. (5)

Answer 37

• alternating current in coil
• produces magnetic field
• (constantly) changing (field)
• which interacts with field of permanent magnet
• force on coil
• vibration in coil
• making longitudinal wave;

Question 38

The gravitational field strength is smaller on the Moon than on the Earth. Suggest why. (1)

Answer 38

• Moon has less mass

Question 39

The feather reaches the ground after the hammer, even though the force of air resistance is smaller on the feather than on the hammer. Explain why the feather reaches the ground after the hammer.

(4)

Answer 39

• Feather is lighter
• reaches terminal velocity
• before hammer
• because smaller (drag) force needed
• (so) average velocity of feather is lower / falls slower;

Question 40

Use ideas about particles to explain how a gas causes a pressure on the inside of a container. (3)

Answer 40

particles in constant motion / particles have kinetic energy

• in random directions

colliding with walls

causing a force on the walls

Pressure = force /area;

Question 41

How would increasing the temperature of the compressed air affect the pressure in the can?
Explain your answer. (3)

Answer 41

• Increases pressure
• (higher temp) increases (average) speed / kinetic energy of particles
• So collide with walls more often / at higher speed;

Question 42

A power of 1 watt is the same as…

Answer 42

1 joule per second

Question 43

Two uses and two dangers of UV (4)

Answer 43

Uses - Flourescent lamps, killing bacteria

Dangers - Cell and eye damage, suburn

Question 44

Add to the diagram to show field lines

Answer 44

Question 45

Describe how to investigate the shape and direction of the magnetic field between two magnets (3)

Answer 45

• a method to show shape
• Use of iron filings
• sprinkle iron filings evenly on card
• tap card to distribute iron filings

Question 46

Describe the motor effect (2)

Answer 46

• (Fleming’s) Left Hand (Motor) rule
• there is a force on rod
• translational movement of rod
• out of the paper

Question 47

A student wants to find density

He has the mass.

What else must he do to find the density (3)

Answer 47

• Measure/find volume
• Using a displacement method
• repeat readings and find average
• Formula to use (density = mass ÷ volume)
• density unit mentioned (e.g. kg/m3);

Question 48

A racing cyclist rides around a track. A student wants to find the average speed of the cyclist. What should he do (5)

Answer 48

• measure distance and time
• measure time using stopwatch, distance using tape measure
• Count laps (of known length);
• repeat experiment/calculate average;
• Speed = distance / time
• time from a predetermined consistent point;

Question 49

What are the products of the fission of uranium nuclei (3)

Answer 49

• Neutrons
• Daughter nuclei
• Gamma radiation

Question 50

The distance between earth and mars varies. Explain why (2)

Answer 50

• Different speeds
• Different orbits

Question 51

Why is speed limited to 0.04 m/s for the Mars rover (2)

Answer 51

• low speed reduces stopping distance
• low (kinetic) energy reduces damage if in collision

Question 52

Explain why it is difficult to measure the thickness of a single piece of paper with a ruler (2)

Answer 52

• ruler has a mm scale
• idea of inappropriate precision
• paper is (very) thin;

Question 53

Explain what is meant by the term ‘half life’ (2)

Answer 53

• Time taken
• For radioactivity to halve

Question 54

Describe what happens in a reactor when a control rod is removed (2)

Answer 54

• rate of reaction increases
• fewer neutrons absorbed by control rod

Question 55

Describe the difference between transverse waves and longitudinal waves. You may draw diagrams to help your answer. (3)

Answer 55

• oscillations (vibrations) are at right angles to the direction of travel and energy transfer (transverse)
• oscillations are along the same direction as the direction of travel and energy transfer.

Question 56

The extension cable is fitted with a 13 A fuse. Describe how the fuse protects the cable. (3)

Answer 56

• if current exceeds 13A
• fuse (wire) melts
• breaking circuit
• prevents cable over heating;

Question 57

The extension cable is fitted with a 13 A fuse. Explain why a 5 A fuse is not suitable for this extension cable. (2)

Answer 57

• limits the use of the extension cable
• can’t reach max working value
• (because otherwise) 5 A fuse will blow

Question 58

Describe an experiment to investigate the shape of the magnetic field pattern of a bar magnet. (3)

Answer 58

Place magnet under paper / plastic

Sprinkle iron filings over

• Tap paper gently (to reveal pattern);

Question 59

Describe how the student should measure the starting height of the car. (2)

Answer 59

• Use a ruler
• Held vertically
• check for zero errors

Question 60

Write a plan for the student’s investigation. Your plan should include details of how the student can make accurate measurements.

You may add to the diagram to help your answer. (5)

Answer 60

• Add (known value) masses one at a time
• Measure length of the spring
• Find extension
• Draw graph with suitable named axes
• measure from same part each time
• Make sure spring stationary before reading
• repeat readings by taking off masses
• Check value of masses on a balance
• Check ruler vertical to spring

Question 61

Explain what is meant by the term elastic behaviour. (2)

Answer 61

• returns to original length / shape
• when (stretching) force is removed;

Question 62

State two properties of electromagnetic waves that makes microwaves suitable for communications with a satellite in space. (2)

Answer 62

• travel very fast
• can be coded

Question 63

What effect does the emission of a beta particle have on a nucleus? (2)

Answer 63

• neutron number decreases by 1
• proton number increases by 1

Question 64

Explain why radioactive sources can be dangerous. (2)

Answer 64

• (they emit) ionising radiation
• Cannot be seen
• Can damage/harm cells
• Can cause tumours / cancer;

Question 65

Describe how the risks of working with radioactive sources can be reduced. (3)

Answer 65

Reduce exposure time

• keep at distance
• Use shielding e.g gloves
• Wear film badge

Question 66

Suggest how the student could measure the volume of an inflated balloon. (2)

Answer 66

• measure water displaced (with measuring cylinder)
• calculate volume (with equation);

Question 67

Suggest how the student measured the area of the floor in contact with his foot. (3)

Answer 67

• Record outline of foot
• Attempt at evaluation of area
• estimate the squares
• on squared paper

Question 68

Describe how a detector can be used with sheets of lead, aluminium and paper to show that a sample of sodium-24 emits beta particles. (2)

Answer 68

• beta penetrates paper

beta absorbed by lead +/or aluminium

Question 69

Use ideas about forces to explain how a falling object can reach a terminal velocity. (5)

Answer 69

• There is a downward force due to gravity on the object
• So it accelerates (downwards)
• there is a force of drag upwards
• drag increases as speed increases
• eventually drag = weight
• (hence) resultant force is zero
• (hence) object travels at constant speed;

Question 70

Describe how an earth wire acts as a safety feature. (4)

Answer 70

• earth connected to (metal) casing
• Live wire touches case
• Provides low resistance path (to earth)
• (So) large current in earth wire
• (hence) fuse breaks/melts/blows
• (so) circuit switches off or current stops or supply cuts off;

Question 71

The photograph shows a small electric motor. Explain why the coil starts to spin when the switch is closed. (4)

Answer 71

• Current in coil
• (Creates) magnetic field (around the wires of the coil)
• Interaction of (this) field with that of (permanent) magnets
• There is a force on the wire(of coil)
• left hand rule
• force up on one side and down on other side;

Question 72

Suggest how to make the coil spin in the opposite direction. (1)

Answer 72

• Swap magnets over
• Reverse current direction

Question 73

The diagram shows how air moves near the coast on a warm day. Explain why air moves as shown on the diagram. (5)

Answer 73

• Energy (transferred) from the sun
• Air over the land is heated
• Warmer air over land expands
• Air becomes less dense and therefore rises
• Cooler air over sea becomes denser
• Cooler air over sea sinks
• Air (from over the sea) moves inland to replace rising air;

Question 74

Explain how Brownian motion provides evidence that air is made of small particles. (3)

Answer 74

• smoke particles are large particles
• larger particles move with random motion
• collisions with smaller (invisible) particles

Question 75

State a difference between the orbit of a moon and the orbit of a planet. (2)

Answer 75

• a moon orbits a planet
• a planet orbits a star /the Sun

Question 76

Explain why shielding is needed in a nuclear reactor (2)

Answer 76

• Reactor material / waste is radioactive
• (radiation) ionises cells/ tissues / organs / body or causes cancer
• radiation is very penetrating;

Question 77

Largest mass out of beta gamma alpha (1)

Answer 77

alpha

Question 78

Highest speed out of beta gamma alpha (1)

Answer 78

gamma

Question 79

Suggest why alpha radiation is more ionising than beta or gamma radiation. (1)

Answer 79

• Charge is larger
• Mass is larger

Question 80

Suggest why fewer alpha particles reach the detector if there is a fire. (2)

Answer 80

• α particles are absorbed
• α particles are affected by smoke;

Question 81

Answer 81

• air molecules heated by the coal fire
• air expands
• air becomes less dense
• less dense air rises
• cooler air from outside the furnacedisplaces warm air
• above the chimney air cools/becomes more dense
• cooled air falls
• convection) is repeated

Question 82

Describe how the student could measure the volume of a non-uniform shape. (4)

Answer 82

• displacement method
• measure volume (of liquid displaced) measuring cylinder
• full immersion of object
• avoid parallax when reading scale
• use of known liquid density to find volume from mass

Question 83

Water from a reservoir can be used to generate electricity on a large scale. Describe the energy transfers involved in this process. (3)

Answer 83

• water has initial GPE
• KE of (moving) water
• Work done on turbine / generator
• Work done against magnetic force
• Electrical energy (produced);

Question 84

ii

Answer 84

• friction/resistance /drag (acts)
• (there is an) unbalanced force
• (hence) ball decelerates
• f(R )= ma
• (kinetic) energy dissipates

Question 85

Explain why a data logger records a varying voltage. (2)

Answer 85

• current is induced
• (because) field in coil is changing
• voltage changes direction when magnet does
• magnet slows down causing decrease in amplitude;

Question 86

One way orbits between earth are different (1)

Answer 86

• Different orbital radius