chapter 39 serway & jewett 6 th ed
DESCRIPTION
Chapter 39 Serway & Jewett 6 th Ed. Fig 39-1a, p.1246. Fig 39-1b, p.1246. Fig 39-3, p.1248. Comparing Stationary and Moving Mirrors. Latticework of Clocks. Nearest neighbors will see the pulse at. Send out light pulse from reference clock at t = 12 noon. Set time to noon + 3.3 ns …. - PowerPoint PPT PresentationTRANSCRIPT
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Chapter 39Serway & Jewett 6th Ed.
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Fig 39-1a, p.1246
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Fig 39-1b, p.1246
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Fig 39-3, p.1248
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Comparing Stationary and Moving Mirrors
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Latticework of Clocks
Send out light pulse from reference clock at t = 12 noon
Nearest neighbors will see the pulse at ns 33103.3m 1 9 .sc
t
Set time to noon + 3.3 ns …
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The Pole-Barn Paradox
From Hyperphysics: http://hyperphysics.phy-astr.gsu.edu
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The pole-barn paradox is a famous one which must be addressed with the ideas of simultaneity in relativity. The fact that two events are simultaneous in one frame of reference does not imply that they are simultaneous as seen
by an observer moving at a relativistic speed with respect to that frame.
The Pole-Barn Paradox
From Hyperphysics: http://hyperphysics.phy-astr.gsu.edu
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For
bidd
en R
egio
n Forbidden R
egion
O
ct
z
ct =
zct = z
AllowedPast
AllowedFuture
World LineLight Cone
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For
bidd
en R
egio
n Forbidden R
egion
O
ct
z
ct =
zct = zLight Cone
World Line
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Muon Experiment: Nonrelativistic
From Hyperphysics: http://hyperphysics.phy-astr.gsu.edu
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Muon Experiment: Relativistic Earth Frame
From Hyperphysics: http://hyperphysics.phy-astr.gsu.edu
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Muon Experiment: Relativistic, Muon Frame
From Hyperphysics: http://hyperphysics.phy-astr.gsu.edu
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Muon Experiment: Comparison
In the muon experiment, the relativistic approach yields agreement with experiment and is greatly different from the non-relativistic result. Note that the muon and ground frames do not agree on the distance and time, but they agree on the final result. One observer sees time dilation, the other sees length contraction, but neither sees both.
Time in terms of
From Hyperphysics: http://hyperphysics.phy-astr.gsu.edu
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Twin Paradox
The story is that one of a pair of twins leaves on a high speed space journey during which he travels at a large fraction of the speed of light while the other remains on the Earth. Because of time dilation, each will see the others clock running more slowly. Which twin will be older when the traveling twin returns to Earth?
From Hyperphysics: http://hyperphysics.phy-astr.gsu.edu
Is this real? Would one twin really be younger?
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Before Photon Emitted
Center of Mass for a discrete distribution:
For a continuous distribution:
where = mb/l.
0
b
ii
i
iicm m
xm
m
xmX
02
12
2
22
22
2
2
2
l
l
l
ll
l
l
lcm l
xxdx
ldx
xdxX
l
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Before Photon Emitted
x
cm
Ec
Em
b
b
v
v
c
l
mc
E
tx v
After Photon Absrobed
mlxmb The center of mass doesnot move if !
Photon transfers mass m from one side of car to the other!
2mcE