Waves 2

Question 1

What is a similarity and difference between reflection and refraction?

Answer 1

• Refraction and reflection both involve a change in direction and both occur at a boundary
• Refraction involves a change in speed and reflection does not. Reflected waves travel in the same material and refracted waves can travel in a different material or in the same material if it has different physical properties e.g. water of different depths; solutions of different densities

Question 2

What is the wave equation?

Answer 2

wave speed = frequency x wavelength

Question 3

What are similarities and differences or transverse and longitudinal waves?

Answer 3

• Both transfer energy / information without transferring matter
• The vibrations ar perpendicular to the direction of energy transfer in transverse and parallel in longitudinal

Question 4

A student uses a rope, fixed at one end, to demonstrate transverse waves. A knot is tied at the midpoint of the rope. One end of the rope is fixed and the student can move the other end of the rope. Describe how the displacement of the knot changes during one complete cycle, starting from its equilibrium position

Answer 4

• The knot over vertically upwards from its equilibrium position to its maximum positive displacement (after 1/4 of a cycle)
• Then down through the equilibrium position (after 1/2 a cycle)
• Continuing down to its maximum negative displacement position (after 3/4 of a cycle) and back the equilibrium position after one complete cycle

Question 5

Describe how you could use a slinky spring to demonstrate transverse waves

Answer 5

• Lay the spring flat on the table

- Move the end of the springs sideways, perpendicular to the length of the spring

Question 6

Describe how you could use a slinky spring to demonstrate longitudinal waves

Answer 6

• Lay the spring flat on the table

- Move the end of the spring back and forwards along the length of the spring

Question 7

How could you show that light os a transverse wave?

Answer 7

• Transverse waves can be polarised but longitudinal ones cannot
• Either show that light cannot pass through crossed polaroids, or that the intensity of unpolarised light is less once it passes through a single polarising filter

Question 8

How do the properties of microwaves make them suitable for cooking?

Answer 8

They are strongly absorbed by fat and water molecules which makes them vibrate; this random vibrational energy is thermal energy in food

Question 9

How do properties of microwaves make them suitable for satellite communication?

Answer 9

-Microwaves which are used for communication are chosen so that they are not absorbed by the water in the atmosphere and they are of a different wavelength to the microwaves used in ovens which are absorbed by water in the atmosphere Information encoded into the microwaves so that they carry information.

Question 10

How does the alignment of TV ariels affects the strength of the signal received?

Answer 10

TV transmissions are usually polarised electromagnetic waves and the ariel must match the plane of polarisation of the electric field of the wave for maximum intensity

Question 11

What are some uses of everyday polarising filters?

Answer 11

• An everyday use of polarising filter is in a polarising camera lens or in sunglasses as the polarising filter is orientated to block horizontally polarised reflections off surfaces such as water or snow
• In flat screens/liquid crystal displays to allow selective transmission of light

Question 12

What is a progressive wave?

Answer 12

A wave that travels through a substance or space, transferring energy

Question 13

What is the amplitude of a wave?

Answer 13

The maximum displacement from the undisturbed position

Question 14

What is the wavelength of a wave?

Answer 14

The distance between the wave peaks (they may give the distance between half a wavelength so make sure double it)

Question 15

What is the frequency of a wave?

Answer 15

The number of cycles per second, measured in Hz

Question 16

What is a period?

Answer 16

The time for one complete cycle, measured in seconds

Question 17

What is a hertz?

Answer 17

The unit of frequency, equivalent to s-1

Question 18

What does ‘in phase’ mean?

Answer 18

• Particles along a wave that move in phase move:
  1. In the SAME DIRECTION with the SAME SPEED
  2. The particles have the SAME DISPLACEMENT from their mean position
  3. Particles, in phase are SEPARATED by a WHOLE NUMBER, n of WAVELENGTHS, nlamda

Question 19

What does ‘out of phase’ mean?

Answer 19

Particles along a wave that move out of phase are at different points in their cycle at a particular time

Question 20

What does ‘anti phase’ mean?

Answer 20

• Particles along a wave that move in anti phase move:
  1. In OPPOSITE DIRECTIONS at the SAME SPEED
  2. The particles have OPPOSITE DISPLACEMENTS from their mean position
  3. Particles moving in anti phase are separated by a distance of a WHOLE NUMBER, n of WAVELENGTHS plus an extra HALF wavelength, nlamda + lamda/2

Question 21

What is a phase difference?

Answer 21

• A phase difference is measured as a fraction of the wave cycle between two points along a wave, separated by a distance x
• phi = 2pix/lamda rad
• One complete rotation involves turning through 2pi radians
• When a wave is reflected off the surface of a denser medium, it undergoes a phase change of 180 degrees
  1. If two points say P and Q are both at the point of no disturbance and are half a wavelength separated their phase difference is 180 degrees

Question 22

What is a longitudinal wave?

Answer 22

• In longitudinal waves particles vibrate parallel to the direction that energy travels in
• Example: sound waves

Question 23

What is a transverse wave?

Answer 23

• In transverse waves vibrations are at a right angles to the direction that the energy travels in
• Example: EM waves

Question 24

What is an electromagnetic wave?

Answer 24

Electromagnetic waves are transverse waves all of which travel at the speed of 3x108 mpersecond in a vacuum

Question 25

What is a mechanical wave?

Answer 25

Mechanical waves cannot travel through a vacuum, but need a medium to travel through e.g. sound waves and seismic waves and waves on a string

Question 26

Describe sound waves

Answer 26

1. Sound waves are longitudinal waves produced by vibrations that move backwards and forwards making the line of wave progression
2. These vibrations produce regions of high and low pressure
3. The regions of high pressure are called compression
4. The regions of lower pressure are called rarefactions
5. The wavelength of a longitudinal wave is the distance between successive compressions, or the distance between successive rarefactions

Question 27

What are properties similar to all electromagnetic waves? What is the order?

Answer 27

1. All travel at the speed of light
2. Their energy is carried by oscillating electric and magnetic fields
3. Radio waves, microwaves, infrared, visible light, ultraviolet, x rays, gamma rays

Question 28

What is a polarised wave?

Answer 28

-When the oscillations of the wave are confined to one plane, the wave is a polarised wave. For example, in an EM wave the electric field might be confined just to the vertical. plane. These waves are said to be vertically polarised

Question 29

What is an example of an unpolarised wave?

Answer 29

1. Light is an example of an EM wave that is usually unpolarised when it is transmitted
2. Light waves are produced when electrons socially win atoms producing electromagnetic waves of a frequency of about 5x1014Hz
3. Since electrons in atoms can vibrate in any direction, the electric and magnetic fields of light osmically in any direction, so such light is unpolarised

Question 30

Is polarise light or unpolarised light more intense and why?

Answer 30

1. Polarised light is less intense than unpolarised light because only half of the energy is transmitted through the filter
2. If a second polarising filter is held at right angles to the original filter, all oscillations are blocked and no light is transmitted
3. This is called crossing the polarisers
4. Light reflecting from a surface can be polarised by reflection. At some angles if incidence, the only reflected rays are rays whose electric field oscillate in one direction

Question 31

What does it mean to cross polarisers?

Answer 31

If a second polarising filter is held at right angles to the original filter, this is called crossing the polarisers