Two postulates Relativity of simultaneity Time dilation; length contraction Lorentz transformations Doppler effect Relativistic kinematics

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Transcription:

Two postulates Relativity of simultaneity Time dilation; length contraction Lorentz transformations Doppler effect Relativistic kinematics Phys 2435: Chap. 37, Pg 1

Two postulates New Topic Phys 2435: Chap. 37, Pg 2

Michelson-Morley experiment Null result: There is no ether (no preferred frame) and all observers see the same speed. Phys 2435: Chap. 37, Pg 3

We know how coordinates and velocities behave in two such frames: x = x'+ ut dx dt = dx' dt + u Galilean relativity Inertial frames: : Non-accelerating reference frame (ignoring gravity) Applied to a light beam in vacuum we get: c = c c + - u. This contradicts experiment!! What s s wrong?? Phys 2435: Chap. 37, Pg 4

Two postulates The laws of physics are the same in every inertial frame of reference. (covariance) Should be true for Maxwell s equations. It is! The speed of light is the same in all inertial reference frames and is independent of the motion of the source. (invariance) What s wrong? Our implicit assumption that t = t. These postulates form the crux of the Special Theory of Relativity. There is also a General theory of Relativity, which deals only with gravitation, which we won t cover here. We will assume that special relativity must reduce to Galilean relativity for v <<c. This is called the correspondence principle. Phys 2435: Chap. 37, Pg 5

ConcepTest 37.1(Post) Postulates Which statements follow from the two postulates of relativity? (1) A spherical wave front in one inertial frame of reference appears as a spherical wave front in any other. (2) One can not catch up with a light beam (3) Experiments in different inertial frames behave the same (4) All of the above (5) Only (2) and (3) are correct. I. The laws of physics are the same in every inertial frame of reference. II. The speed of light is the same in all inertial reference frames and is independent of the motion of the source. (invariance) Phys 2435: Chap. 37, Pg 6

Relativity of Simultaneity New Topic Phys 2435: Chap. 37, Pg 7

Simultaneity: Stanley and Mavis A and B are simultaneous to Mavis Light start to spread out (Stanley POV) Light from B reaches Mavis first Events are simultaneous for Stanley Moral: Simultaneity is relative! Phys 2435: Chap. 37, Pg 8

ConcepTest 37.2(Post) Simultaneity Suppose the two lightning bolts shown are simultaneous to an observer on the train (Mavis). Which lightning strike does the ground observer (Stanley) measure to come first? (1) The one at A (2) The one at B (3) They are still simultaneous (4) Relativity can not answer this Phys 2435: Chap. 37, Pg 9

Time dilation; length contraction New Topic Phys 2435: Chap. 37, Pg 10

Time dilation equations Proper time (Δt( 0 ): Time measured by an observer at rest with respect to two events. Example: A particle known as a muon is generated high in the earth s s atmosphere with a speed of 0.96c relative to the earth. The muon s average lifetime, measured at rest, is 2.2 x 10-6 sec. How far does such a muon travel through the Earth s atmosphere before decaying? Click here for Twin Paradox Phys 2435: Chap. 37, Pg 11

Length contraction equation Twin paradox redux: : If the traveling twin knows 1) the distance to the star is 9.5 light years away and 2) that he/she is traveling at a speed of 0.95c with respect to the Earth/star system, how can he/she possibly agree that it takes only 6.24 years to complete the journey?? Ans: : Length contraction! Contraction is only along the direction of motion, but distortions appear because of the finite speed of light. 1! = 1" (.95 )2 =.3122!! The earth/star distance is contracted!! Proper length (l 0 ): Length measured by an observer at rest with respect to the object. Phys 2435: Chap. 37, Pg 12

Coming toward you look How things earlier position (light emitted here first) actual shape seen later position Going away from you later position shape seen earlier position Weirdness: A sphere still appears as a sphere, but rotated!! Phys 2435: Chap. 37, Pg 13

ConcepTest 37.3(Post) Relativity of time Both Samir and Maria start their stopwatches at the instant that Maria flies past him in her spaceship at a speed of 0.6c. What does each conclude about each other s s stopwatches? (1) Both agree Maria s stopwatch is running slowly (2) Both agree Samir s stopwatch is running slowly (3) Both agree that the other s stopwatch is running slowly (4) Relativity can not answer this. Phys 2435: Chap. 37, Pg 14

Lorentz transformations New Topic Phys 2435: Chap. 37, Pg 15

Transformation equations Galilean : x = x - ut, y = y, z = z, t = t Phys 2435: Chap. 37, Pg 16

Velocity addition law Galilean : v x = v x - u Example: u = 0.95c, v x = 0.95c: Caution: : The Lorentz transformation equations assume that S S is moving in the positive x-direction with velocity u with respect to S. v 12 =.95c +.95c 1 + (.95c)2 c 2 =.99868c Phys 2435: Chap. 37, Pg 17

Doppler effect New Topic Phys 2435: Chap. 37, Pg 18

Doppler effect Note: : When the source moves away from the observer, change the sign of u. Toward: u > 0 => f > f 0 higher frequency Away: u < 0 => f < f 0 lower frequency What if u << c?? Then we obtain f! (1 + u c )f 0!f " u c Phys 2435: Chap. 37, Pg 19

ConcepTest 37.4(Post) Doppler effect A policeman s s radar gun measures the frequency of an electromagnetic carrier wave of frequency f 0, which has bounced off of an oncoming car. It s s velocity is u>0. The frequency measured by the gun, f, is: (1) Equal to the original frequency, f 0. (2) Has a positive frequency shift, Δf = u/c. (3) Has a positive frequency shift, Δf = 2u/c. (4) Has a negative frequency shift, Δf = - u/c. (5) Has a negative frequency shift, Δf = - 2u/c. Phys 2435: Chap. 37, Pg 20

Relativistic kinematics New Topic Phys 2435: Chap. 37, Pg 21

Relativistic momentum, work, etc. Energy and momentum still conserved, but their expressions change!! " #! old connection : $! # p 2 E = " 2m. & % Photon : (m=0) (m=0) E = pc Phys 2435: Chap. 37, Pg 22

Most famous equation of all! 2 E = mc ( rest mass) 0 =>There is no conservation of mass. Einstein ( The Meaning of Relativity, p.47): Mass and energy are therefore essentially alike; they are only different expressions of the same thing. Phys 2435: Chap. 37, Pg 23

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