Modern Physics: Quantum Physics &...

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Modern Physics: Quantum Physics & Relativity

Transcript of Modern Physics: Quantum Physics &...

Page 1: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Modern Physics:

Quantum Physics & Relativity

Page 2: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

You can’t get to Modern Physics

without doing Classical Physics!

The fundamental laws and

principles of Classical Physics

are the basis Modern Physics.

Page 3: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Isaac Newton(1642 -1727)

In Principia (1687 )

Newton

•Invented Calculus

•3 Laws of Motion

•Universal Law of Gravity

The force of gravity is Universal: The same force that makes

an apple fall to Earth, causes the moon to fall around the

Earth and the planets to orbit the Sun.

Page 4: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Newton’s Principia in 1687.

Velocities add:

Galilean Relativity

V= U +V'

V’= 25m/s

U = 20 m/s

V = 45m/s

Page 5: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Relative Velocity• Two observers moving relative to each other generally do

not agree on the outcome of an experiment

• For example, observers A and B below see different paths

for the ball and measure different velocities:

bB bA ABv v vVelocity of ball

relative to

observer B

Velocity of ball

relative to

observer A

Velocity of A

relative to

observer B

Page 6: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

What if instead of a ball, it is a

light wave?

Do velocities add according to

Galilean Relativity?

Page 7: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

James Clerk Maxwell 1860sLight is wave. The medium is the Ether.

The Speed is constant, c.

8

0

13.0 10 /

o

c x m s

Maxwell’s Equations

Page 8: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Measure the Speed of the Ether Wind

Light should travel faster with the wind

and slower against it during the year.

Michelson-Morely Experiment

1887

Page 9: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Rotate arms to produce interference fringes and find

different speeds of light caused by the Ether Wind, due to

Galilean Relativity: light should travel slower against the

Ether Wind. From that you can find the speed of the wind.

https://www.youtube.com/watch?v=7qJoRNseyLQ

Page 10: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Michelson-Morely

Experiment

1887The speed of light is independent of the motion and

is always c. The speed of the Ether wind is zero.

OR: Lorentz ContractionIf there is an ether but we can’t

detect it because the apparatus

shrinks by a factor :

2 21 / v c

Page 11: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

A Problem with Electrodynamics

Wire Rest Frame

(At rest with wire)

Charge Rest Frame

(moving with charge)

The force on a moving charge depends on the Frame.

0F sinF qvB

Page 12: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

The Laws of

Physics must be the

same in all

reference frames!!

Page 13: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Wire Rest Frame

(moving with wire)

Charge Rest Frame

(moving with charge)

0F sinF qvB

Einstein realized this inconsistency and could have chosen either:

•Keep Maxwell's Laws of Electromagnetism, and abandon Galileo's

Spacetime

•or, keep Galileo's Space-time, and abandon the Maxwell Laws.

Einstein doesn’t like it: The Force Depends on Your Perspective

Page 14: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Lorentz Contraction in WireMoving charges in the wire cause a Lorentz contraction in the distance

between the moving charges in the wire so that from the rest frame of

the charge outside the wire (or at rest in the wire) the moving charges

bunch up and thus give a net charge to the wire.

Page 15: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Eisntein Saves Maxwell!

Wire Rest Frame

(moving with wire)

Charge Rest Frame

(moving with charge)

From the rest frame of the charge, the wire is charged and it feels a

Coulomb force. The forces in each frame are equal though they are

due to different causes!

The force on a moving charge does NOT depend on the Frame.

sinF qvB

2

1 2 /F kq q r

Page 16: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Magnetic Fields are SR effects of

Electric Fields!

Page 17: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

On the Electrodynamics of Moving Bodies

1905

Page 18: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics
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Einstein’s Principle of Relativity

• Maxwell’s equations are true in all inertial reference

frames.

• Maxwell’s equations predict that electromagnetic

waves, including light, travel at speed c = 3.00 ×

108 m/s =300,000km/s = 300m/µs .

• Therefore, light travels at speed c in all inertial

reference frames.

Every experiment has found that light travels at 3.00 × 108

m/s in every inertial reference frame, regardless of how the

reference frames are moving with respect to each other.

Page 20: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Special Theory: Inertial Frames:Frames do not accelerate

relative to eachother; Flat

Spacetime – No Gravity

They are moving on inertia

alone.

General Theory: Noninertial Frames:Frames accelerate: Curved

Spacetime, Gravity &

acceleration.

Page 21: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Albert Einstein

1916

The General Theory of Relativity

Page 22: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Postulates of Special

Relativity

1905

1. The laws of physics are the same in all inertial reference frames.

2. The speed of light in a vacuum is constant in all inertial

reference frames, independent of the relative motion of source

and observer. We assume a vacuum for this class.

3. Months later……E = mc2

83.0 10 / 300 /c x m s m s

Page 23: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Slower than Light?

Light slows down in a medium like glass as a function of

wavelength. Who slows down more, red or blue in glass?

Page 24: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Faster than Light?

Cherenkov radiation is electromagnetic radiation emitted when a

charged particle passes through an insulator at a speed greater than

the speed of light in that medium. The characteristic "blue glow" of

nuclear reactors is due to Cherenkov radiation.

Page 25: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Light travels in a vacuum at c in all

inertial reference frames, regardless

of the relative motion.

Page 26: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Clocks slow down

and rulers shrink

in order to keep the

speed of light the

same for all

observers!

Page 27: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics

Time is Relative!

Space is Relative!

Only the SPEED

OF LIGHT is

Absolute!

Page 28: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics
Page 29: Modern Physics: Quantum Physics & Relativitysrjcstaff.santarosa.edu/~lwillia2/43/43ch39intro_s18.pdf · 2018. 1. 17. · Quantum Physics & Relativity. You can’t get to Modern Physics