Chapter 3 Turning points

Question 1

TP Chapter 3 Q) Define absolute motion

Answer 1

All objects including light move relative to a fixed background, called the ether.

Question 2

TP Chapter 3 Q) Describe the Michelson – Morley interferometer experiment

Answer 2

Light is sent to a partoa;l reflector so it is split into two. The light travels separately to two different mirrors and then reflects back to a detector.

Question 3

TP Chapter 3 Q) Describe the results that were expected to be seen from the Michelson – Morley interferometer experiment

Answer 3

Rotating the apparatus 90 degrees will cause the interference pattern to change. Light travelling parallel to the motion of the Earth should take longer than light travelling perpendicular.

Question 4

TP Chapter 3 Q) Describe the observed results from the Michelson – Morley interferometer experiment

Answer 4

There was no effect of rotating the apparatus and no effect of the experiment happening at different times of the day and year.

Question 5

TP Chapter 3 Q) Describe the conclusion from the Michelson – Morley interferometer experiment

Answer 5

It is impossible to detect absolute motion, the ether doesn’t exist. The speed of light is invariant.

Question 6

TP Chapter 3 Q) Define an inertial frame of reference

Answer 6

Newton’s law is obeyed. An inertial frame must be stationary or at a constant speed.

Question 7

TP Chapter 3 Q) State the two postulates of Einstein’s theory of special relativity

Answer 7

The laws of physics have the same form in all inertial frames. The speed of light is invariant.

Question 8

TP Chapter 3 Q) why could the special theory of relativity not be applied on a journey to a black hole?

Answer 8

Gravity changes so you would be accelerating so it wouldn’t be an inertial frame.

Question 9

TP Chapter 3 Q) Explain the meaning of the speed of light is an invariant

Answer 9

The speed of light is measured to be the same in all reference frames by all observers.

Question 10

TP Chapter 3 Q) Define time dilation

Answer 10

The increase in time measured by an observer who is moving at a constant velocity in relation to the two events.

Question 11

TP Chapter 3 Q) Define proper time

Answer 11

The time interval between two events as measured by an observer that is stationary in relation to the events.

Question 12

TP Chapter 3 Q) Describe how muon decay is used as evidence for special relativity

Answer 12

Muons are created in the upper atmosphere and travel towards the Earth’s surface. Due to their short half life we would expect most muons to decay before they reach the surface. As they travel close to the speed of light time is dialated and the majority of muons each the earths surface.

Question 13

TP Chapter 3 Q) Define length contraction

Answer 13

A moving object will look shorter to an external observer.

Question 14

TP Chapter 3 Q) Describe Bertozzi’s experiment

Answer 14

Electrons are accelerated and time of flight is measured with an oscilloscope. Velocity is calculated by using distance/time. Electrons collide with an aluminium plate where temperature rise is measured. Energy of the electrons calcualted.

Question 15

TP Chapter 3 Q) Explain how Bertozzi’s experiment provides evidence for special relativity

Answer 15

The speed of electrons increased up to the speed of light. The kinetic energy continues to increase so mass must be increasing.

Question 16

TP Chapter 3 Q) Define rest mass

Answer 16

The mass of a stationary object

Question 17

TP Chapter 3 Q) Define relative mass

Answer 17

The mass of an object which is moving close to the speed of light

Question 18

TP Chapter 3 Q) How can you calculate the increase in kinetic energy as an object speeds up

Answer 18

Energy due to rest mass - energy of object due to rest mass and kinetic energy. - c2(m - mo)