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Problem in Taylor and Wheeler's Spacetime Physics


jlowe22

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The problem is 5-5 part d.  As worded is:

"One radar gun used by the Massachusetts Highway Patrol operates at a frequency of 10.525 X 109 cycles/second. By how many cycles/second is the reflected beam shifted in frequency when reflected from a car approaching at 100 kilometers/ hour?"

The book gives the answer 3136, and I can't for the life of me get this answer.  I've done this multiple ways and get the same wrong answer every time.  Doing similar problems elsewhere I'm getting right answers, so I can only conclude that either I'm overlooking something really, really silly, or there's a typo somewhere in the book.  If someone can confirm that 3136 is indeed the right answer, I'll go on trying to figure out where I screwed up.

 

The link to the full problem is here:

https://phys.libretexts.org/Bookshelves/Relativity/Spacetime_Physics_(Taylor_and_Wheeler)/05%3A_Trekking_through_Spacetime/5.E%3A_Trekking_through_Spacetime_(Exercises)

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3 hours ago, jlowe22 said:

I get ~ 1951 every time I try.

I agree that this would be the best Excel can do, and Excel is the best way I have for handling multidigit numbers.

calc1.jpg.247d01a253b288d52a4c6b98b9973efe.jpg

 

However since wee are talking about the difference between the last four digits to two eleven digit numbers, not to mention the loss involved in the quotients, there will be a lot of variation depending upon calculation method.

 

 

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5 hours ago, Genady said:

You get the book answer if you use 100 mph instead of 100 km/hour.

Of course.  I knew something silly was going on, I could get the book answer using 44.6 m/s but I didn't make the connection to mph.

Thanks guys.

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2 hours ago, Sensei said:

@studiot Shouldn't the relativistic Doppler effect formula be used instead of the classical one formula for sound waves? (i.e. sqrt() is needed)

 

Here is the Wiki article on the subject of police doppler radar guns.

Quote

The formula for radar Doppler shift is the same as that for reflection of light by a moving mirror.[2] There is no need to invoke Albert Einstein's theory of special relativity, because all observations are made in the same frame of reference.[

https://en.wikipedia.org/wiki/Doppler_radar

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On 8/21/2023 at 6:30 PM, studiot said:

I agree that this would be the best Excel can do, and Excel is the best way I have for handling multidigit numbers.

..or you can write a Python script..

#!/bin/python

import sys
import math

args = len( sys.argv )
if( args != 2 ):
	print( "The required argument is missing!" )
	sys.exit( 1 )

v = float( sys.argv[ 1 ] )

c = 299792458.0 # in vacuum
#c = 299705000 # in air
fin = 10.525e+9
gamma = ( c + v ) / ( c - v )
fout = fin * gamma
df = fout - fin

print( "Fs", fin )
print( "v", v )

print()
print( "Classic:" )
print( "gamma", gamma )
print( "Fo", fout )
print( "dF", df )
print( "dF (short equation)", 2 * v * fin / c )

gamma_sr = ( math.sqrt( gamma ) - 1 ) * 2 + 1
fout_sr = fin * gamma_sr
df_sr = fout_sr - fin

print()
print( "Special Relativity:" )
print( "gamma", gamma_sr )
print( "Fo", fout_sr )
print( "dF", df_sr )

 

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Doing it in SR,

f1 = emitted frequency

f2 = received and reflected frequency by the car

f3 = measured frequency:

f2 = f1 * sqrt(...)

f3= f2 * sqrt(...) = f1 * sqrt(...) * sqrt(...) = f1 * ...

No sqrt(...) in the final calculation.

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