Special Relativity

Question 1

what was einstein’s claims in his theory of special relativity about light

Answer 1

that nothing can accelerate beyond the speed of light

Question 2

what is a dilemma we came across with this statement when accelerating particles

Answer 2

• some particles in accelerators already travelling close to the speed of light
• should be accelerated beyond it when passed through a pd

Question 3

what did william bertozzi demonstrate

Answer 3

• that at those speeds, particles deviate from the equation mv^2 / 2 = QV
• and so they never actually accelerate beyond the speed of light

Question 4

in an experiment to measure the speed of electrons accelerated from a van de graaff generator, what did they practically do

Answer 4

• they collided the electron with a target
• measured the heat generated by that collision
• then used that to measure the kinetic energy the electron had

Question 5

what did they observe during these experiments

Answer 5

that the energy gained from the accelerating pd started to become more than the amount expected from mv^2 / 2

Question 6

what did this mean about the relationship between the particles momentum and their velocity

Answer 6

• the momentum of the particles can forever increase

- while their velocity has a limit

Question 7

what conclusion did they therefore come to

Answer 7

the mass of the particle had to be increasing with its speed

Question 8

what are relativistic speeds

Answer 8

speeds approaching light speed

Question 9

in a graph of (v/c)^2 against E(k) / m(e) c^2, with v being the velocity of an electron, E(k) being kinetic energy and m(e) being the mass of an electron, what would the line drawn using newtonian mechanics look like

Answer 9

• a straight line with a positive gradient

- starting from the origin

Question 10

what would that graph imply about the relationship between (v/c)^2 and E / mc^2

Answer 10

• that they were directly proportional

- (v/c)^2 dpt E / mc^2

Question 11

if (v/c)^2 = k * E / mc^2, what would the constant be

Answer 11

• 2

- (v/c)^2 = 2E / mc^2

Question 12

in a graph of (v/c)^2 against [1 - (mc^2 / (mc^2 + E)^2)], with v being the velocity of an electron, E being kinetic energy and m being the mass of an electron, what would the line drawn using newtonian mechanics look like

Answer 12

• an exponential x^1/2 or l graph
• but with the lien starting the origin
• the line would plateau just below (v/c)^” = 1