BMAT Physics

Question 1

How do you charge an insulator?

Answer 1

1. When two insulating material are rubbed together electrons will be scraped off one, leaving a positive electrostatic charge and a negative electrostatic charge on the other
   - Friction

Question 2

Which object becomes negatively charged?

Answer 2

Object gaining electrons

Question 3

Which object becomes positively charged?

Answer 3

Object losing electrons

Question 4

What are the forces between charged objects?

Answer 4

• Attraction
• Repulsion
• Like charges repel, opposite charges attract

Question 5

What are the uses and dangers of electrostatics with paint spraying?

Answer 5

1. Car manufacturers can save money by using charged paint spray guns
2. They work because like charges such as positive and positive repel, and unlike charges such as positive and negative attract
3. The spray gun is charged positively, which causes every paint particle to become positively charged
4. Like charges repel and the paint particles spread out 5.The object to be painted is given a negative charge and so attracts the paint particles
5. The advantages of using this system are that less paint is wasted, the object receives an even coat and the paint covers awkward ‘shadow’ surfaces that the operator cannot see.

Question 6

What are the uses and dangers of electrostatics with dust extraction?

Answer 6

1. Smoke particles pick up a negative charge
2. Smoke particles are attracted to the collecting plates
3. Collecting plates are knocked to remove the smoke particles

Question 7

What is a conductor and insulator of electric current?

Answer 7

• Conductor: Charge is carried by negatively charged electrons e.g. copper wire
• Insulator: stops current flowing e.g. plastic

Question 8

What does a voltmeter and ammeter do?

Answer 8

• Voltmeter: measures voltage in a circuit

- Ammeter: measures current in a circuit

Question 9

What is the equation for resistance?

Answer 9

Voltage / Current

Question 10

What is the V-I graph like for a fixed resistor and a filament lamp?

Answer 10

• Fixed resistor: straight line, current thought a resistor at a constant temperature is proportional to voltage
• Filament lamp: as temperature of the metal filament increases, the resistance increases, hence the curve

Question 11

What is the current like in a parallel circuit?

Answer 11

• Each component in parallel has the same current as it would have if it were connected to the battery without the other components present
• This means that a higher resistance in parallel with a smaller resistance would have less current in it, as the same voltage will cause less current in a larger resistance than in a smaller one
• The current entering and leaving a branching point is equal
• Current on a single branch is the same
• Current on two different branches can differ

Question 12

What is the voltage like in a parallel circuit?

Answer 12

• The voltage across each component is the same as the voltage of the battery
• Voltage in each brach the same

Question 13

What is the current like in series circuit?

Answer 13

Same current flows through all parts of the circuit

Question 14

What is the voltage like in a series circuit?

Answer 14

The pd across resistors in series must add up to the battery voltage

Question 15

How do you calculate resistors in series?

Answer 15

Rt = R1 + R2

Question 16

What is the equation for voltage?

Answer 16

Energy / Charge

Question 17

What is the equation for power?

Answer 17

Current x voltage

Question 18

What is the equation for energy transfer?

Answer 18

Power x time = VIt

Question 19

What is the relationship between the number of turn of the primary and secondary coils and voltage ratio?

Answer 19

Vp / Vs = np / ns

Question 20

What is the consequence of a 100% efficiency of a transformer?

Answer 20

-Total transfer of electrical power, and that this gives rise to:
VpIp = VsIs

Question 21

When does electromagnetic induction occur?

Answer 21

When a wire moves relative to a magnet or when a magnetic field changes

Question 22

What is a generator?

Answer 22

A coil rotating in a magnetic field

Question 23

What is the equation for speed?

Answer 23

Distance / Time

Question 24

What is the difference between speed and velocity?

Answer 24

• Speed: is how fast you are going (scalar - magnitude only)
• Vector: how fast you are going with a direction (vector - magnitude and direction)

Question 25

What is the equation for acceleration?

Answer 25

change in velocity / time

Question 26

What is Newton’s first law?

Answer 26

• The velocity of an object will not change unless a resultant force acts on it
• A body will stay still or move in a straight line at a constant speed, unless a resultant force acting on it

Question 27

What is inertia?

Answer 27

The tendency of an object to to stay at rest or in motion

Question 28

What is the equation for momentum?

Answer 28

mass x velocity

Question 29

What is the conservation of momentum?

Answer 29

momentum before collision = momentum after collision

Question 30

What is Newton’s second law?

Answer 30

• If there is an unbalanced force, then the object will accelerate in that direction
• Force = mass x acceleration

Question 31

What is the resultant force?

Answer 31

Fr = F1 + F2

Question 32

What is the difference between mass and weight?

Answer 32

• Mass is the ‘amount of stuff’ in an object
• Weight is caused by the pull of gravity, a force
• W = mg

Question 33

What is the gravitational field strength?

Answer 33

10 N/Kg on Earth

Question 34

What is free-fall acceleration?

Answer 34

• A free falling object is an object that is falling under the sole influence of gravity
• Any object that is being acted upon only by the force of gravity is said to be in a state of free fall. There are two important motion characteristics that are true of free-falling objects:
  1. Free-falling objects do not encounter air resistance.
  2. All free-falling objects (on Earth) accelerate downwards at a rate of 9.8 m/s/s

Question 35

What is terminal velocity and the forces involved?

Answer 35

1. The accelerating force acting on all falling objects is gravity and it would make them all accelerate at the same rate if it wasn’t for air resistance
2. Air resistance causes things to fall at different speeds and the terminal velocity of any object is determined by its drag compared to its weight
3. The drag depends on its shape and areas

Question 36

How does terminal velocity work with a human skydiver?

Answer 36

• Without his parachute he has a quite small areas and a force equal to his weight pulling him down
• He reaches terminal velocity at a very high speed, but with the parachute open there is much more air resistance and still only the force pulling hi, down
• This means that his terminal velocity comes down to a much smaller speed, which is a safe speed to hit the ground

Question 37

What is Newton’s third law?

Answer 37

If object A exerts a force on object B, then object B exerts and equal but opposite force on object A

Question 38

What is the calculation for work?

Answer 38

Work = force x distance moved in direction of force

Question 39

What is work done?

Answer 39

Transfer of energy

Question 40

What is potential energy?

Answer 40

Mgh

Question 41

What is kinetic energy?

Answer 41

0.5mv^2

Question 42

What is a calculation for power?

Answer 42

Energy transfer / time

Question 43

How are crumple zones used in road safety?

Answer 43

Crumple on impact, increasing the time taken for the car to stop so the force acting is smaller reducing injury

Question 44

How are seat belts and air bags used in road safety?

Answer 44

• Safety Belts: stretch slightly, increasing the time taken for the wearer to stop and this reduced the forces acting on the chest
• Air Bags: slow you down more gradually

Question 45

What is the law of conservation of energy?

Answer 45

Energy can never be created or destroyed it is only ever transferred from one form to another

Question 46

What are some forms of energy?

Answer 46

electrical energy, light, sound, kinetic, nuclear, thermal. GPE, EPE, chemical

Question 47

Wehn is energy useful?

Answer 47

Energy is only useful when it canoe transferred from one form to another

Question 48

How do you calculate percentage efficiency?

Answer 48

useful output / total input x 100

Question 49

What are thermal conductors and insulators?

Answer 49

• Thermal conductor: aluminium, iron
• Thermal insulator: wool, bedding
• Conduction is the process where vibrating particles pass on their extra kinetic energy to neighbouring particles

Question 50

What factors affect the rate of conduction?

Answer 50

1. Temperature Difference (greater, greater rate of thermal energy transfer)
2. Length (longer, less heat successfully transferred)
3. Cross sectional area (greater, greater)
4. Material (thermal conductivity of the material per unit thickness)
5. Time (greater, greater )

Question 51

How temperature affect the density of fluid?

Answer 51

• Hot water, less dense

- Cooler water, more dense

Question 52

How does convection currents work?

Answer 52

1. Heat energy is transferred from he heater coils to the water by conduction
2. The particles near the coils get more energy so start moving around faster
3. Particles further apart so becomes less dense
4. Reduction in density, means that hotter water tends to rise above the denser, cooler water
5. As the hot water rises it displaces the colder water out of the way, making it sink towards the heater coils
6. This water is then heated by the coils and rise and so it goes on. You end up with convection currents going up round and down, circulating the heat energy through the water

Question 53

What factors affect the rate of convection?

Answer 53

1. Exposed surface area: greater, greater
2. Viscosity
3. Density
4. Conductivity: When conductivity is high, there is no need for convection
5. Acceleration due to gravity

Question 54

What is heat radiation?

Answer 54

• Infrared radiation

- Consists purely of EM waves of certain range of frequencies

Question 55

What is absorption and emission?

Answer 55

1. Hotter object: emits more radiation than it absorbs (as it cools down)
2. Cooler object than its surroundings:absorbs more reaction than it emits (and warms up)
   - Objects are continually emitting and absorbing radiation

Question 56

What factors affect rate of absorption/emission?

Answer 56

• Surface area: larger, higher rate
• Volume and material
• Temperature difference
• A perfect black body is an object than absorbs all of radiation incident on it (does not reflect or transmit nay reaction)
• A good absorber is a good emitter
• Colour and texture: dull and black are better absorbers and emitters of IR than shiny white surfaces

Question 57

What do waves do?

Answer 57

Transfer energy without met movement of matter

Question 58

What is a transverse wave?

Answer 58

A wave where the direction of energy transferred is perpendicular to the direction of vibrations

Question 59

What is a longitudinal wave?

Answer 59

A wave where the direction of energy transferred is parallel to the direction of vibrations

Question 60

What are examples of waves ?

Answer 60

• Transverse: ripples on water, EM waves, seismic ‘S’ waves

- Longitudinal: sound waves, seismic ‘P’ waves

Question 61

What is the amplitude of a wave?

Answer 61

Height of the wave from the undisturbed position (rest to crest)

Question 62

What is the wavelength of a wave?

Answer 62

Distance from one peak to the next

Question 63

What is the frequency of a wave?

Answer 63

How many complete waves there are per second

Question 64

What is the period of a wave?

Answer 64

The time it takes from one complete wave to pass a point

Question 65

How do you calculate frequency?

Answer 65

1/ t

1Hz means one wave per second

Question 66

How do you calculate wave speed?

Answer 66

frequency x wavelength

Question 67

How do you know is a transformer is step up or step down?

Answer 67

1. Step Up: N2/N1 > 1

2. Step Down: N2/N1 < 1

Question 68

What is reflected wave?

Answer 68

angle of incidence = angle of reflection

Question 69

What is a refracted wave?

Answer 69

Change speed and direction moping through a different medium

Question 70

What is diffraction?

Answer 70

Spreading out fo waves as they mass through a wave

Question 71

What is the Doppler effect?

Answer 71

1. When the spruce is travelling towards you, the wavelength decreases and frequency increases
2. When the wave is travelling away from you the wavelength increases and the frequency decreases

Question 72

What is the effect of reflection and refraction on speed frequency and wavelength?

Answer 72

hdhfghsd

Question 73

Describe sound waves

Answer 73

-Reflection causes echoes (reflected signal)
-Ultrasound is sound with a frequency greater than 20,000 Hz
-Humans cannot hear ultrasound but many other animals can, such as mice, dogs and porpoises.
-Ultrasound is useful because it has a short wavelength so it can be focussed into a beam
Uses of ultrasound: scanning, sonar, animals
-This is due to the fact that ultrasound can be transmitted through soft tissue, but is mostly reflected when it comes into contact with more dense material such as bone
-Any ultrasound that is not reflected will be absorbed by the body
-Doctors also use ultrasound to monitor blood flow and destroy kidney stones

Question 74

What are the properties of EM waves?

Answer 74

1. Can all travel at the speed of light in a vacuum
2. All transverse waves
3. All can be reflected, refracted and diffracted

Question 75

What is the order of the electromagnetic spectrum?

Answer 75

• Radio waves, microwaves, infrared radiation, visible light, ultraviolet, X ray, gamma rays
• Decreasing wavelength, increasing frequency
• Know applications of EM waves

Question 76

What are the dangers of EM waves?

Answer 76

• Intense sources of microwaves can be dangerous through internal heating of body cells
• The heating effect of IR can cause burns to the skin
• Ultraviolet light in sunlight can cause the skin to tan or burn
• Ultraviolet waves, X-rays and gamma rays are types of ionising radiation
• Ultraviolet waves can cause damage to skin cells and eyes, and increase the risk of skin cancer
• X-rays and gamma rays can cause the mutation of genes, which can lead to cancer

Question 77

What are some popular models of atomic structure?

Answer 77

• Plum Pudding model

- Rutherford Scattering Model

Question 78

What is ionisation caused by?

Answer 78

A gain or loss of electrons

Question 79

What is an isotope?

Answer 79

An atom of the same element with a different number of neutrons but the same atomic number

Question 80

What is atomic number?

Answer 80

Number of protons in an atom of an element

Question 81

What is atomic mass?

Answer 81

The number of neutrons and protons in an atom

Question 82

What is radioactive decay?

Answer 82

• It is a spontaneous and random event
• Unstable nuclei decay
• Produce ionising radiation

Question 83

What is alpha emission?

Answer 83

• 2 protons and 2 neutrons are decayed
• They stop quickly and don’t penetrate far
• Strongly ionising
• Decreases atomic number by two and increases mass number by four
• Helium nuclei
• Slow moving
• Transmutes atom into a different element

Question 84

What is beta emission?

Answer 84

• A electron emitted from the nucleus of an atom when a neutron turns into a proton and an electron
• When a beta particle is emitted, the number of protons in the nucleus increases by 1
• Penetrate moderately and are moderately ionising
• Transmutes atom into a different element with an atomic number plus one
• Moderately fast moving

Question 85

What is gamma emission?

Answer 85

• Short wavelength EM waves
• No mass just energy
• Weakly ionising and penetrate a long way, fast moving
• Has no effect on atomic or mass numbers of the isotope
• Nucleus changes from a higher to a lower energy state
• Emits a high energy photon

Question 86

What are radioactive emissions blocked by?

Answer 86

1. Alpha: paper, skin or few centimetres in air
2. Beta: stopped by thin metal (aluminium)
3. Gamma: blocked by thick lead or very thick concrete

Question 87

What are the existence and origins of background radiation?

Answer 87

1. Substances of Earth: comes from air, food, building material, soil rocks
2. Radiation from space (cosmic rays): come mostly from the sun
3. Living things: there is a little bit of radioactive material in all living things
4. Radiation due to human activity e.g. fall out from nuclear explosions or nuclear waste (though this is usually a tiny proportion of the total background radiation)
   - Cosmic rays, rocks, animals, soil and plants

Question 88

What are the applications, dangers and hazards of ionising radiation?

Answer 88

• Sterilisation
• Kill cancerous tumours
  1. Alpha: topical radiotherapy, smoke detector
  2. Beta: medical tracers, checking paper thickness
  3. Gamma: Sterilisation of equipment, radiotherapy, detecting damaged pipes

Question 89

What is half life?

Answer 89

• The time taken to reduce the number of radioactive particles in half
• Decrease in activity over time

Question 90

Describe nucelar fission?

Answer 90

• Caused by absorption of neutrons
• The nucleus of the atom splits into smaller parts
• Chain reaction: each time U235 nucleus splits, small number of neutrons which go on to hit other U235 nuclei, causing them to split and release more neutrons, (chain reaction)
• When splits, two daughter nuclei which are light elements and these are usually radioactive as they have the ‘wrong’ number of neutrons in them
• Each nucleus splitting gives out a lot of energy, and this energy is in the from of kinetic energy of the fission products
• This energy can be converted to heat energy in the reactor, by collisions with other atoms

Question 91

Describe nuclear fusion

Answer 91

• Fusion of hydrogen to form helium
• Two small light nuclei fuse to form a heavier nucleus
• High temperature and pressure
• In all nuclear reactions a small amount of the mass changes to energy. This may not seem like a lot of energy but this energy is a result of the fusion of only four hydrogen nuclei