Sound to travel form the TV to the viewer

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The discussion focuses on calculating the maximum distance between a television viewer and a celebrity during a live press conference, using the speed of sound and the distances involved. The viewer hears the sound from the TV after it has traveled 2.9 m, while a reporter hears it directly from the celebrity, who is 5.2 m away from the microphone. The initial approach incorrectly adds the times for sound travel instead of considering the difference. The correct method involves calculating the time differences and adjusting for the speed of light to determine the maximum distance. Ultimately, understanding the relationship between the times and distances is crucial for solving the problem accurately.
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Homework Statement


A celebrity holds a press conference, which is televised live. A television viewer hears the sound picked up by a microphone directly in front of the celebrity. This viewer is seated 2.9 m from the television set. A reporter at the press conference is located 5.2 m from the microphone and hears the words directly at the very same instant that the television viewer hears them. Using a value of 343 m/s for the speed of sound, determine the maximum distance between the television viewer and the celebrity.


Homework Equations


Let the time required for the sound to travel form the TV to the viewer be t1 = d1/v, where the symbols have their usual meaning. Let the time required for the sound to travel from the celebrity to the reporter be t2 = s2/v . The time required for the EM wave to travel to the viewer's set is t = s/c . Using the information given in the problem statement, construct a relationship between these three times.


The Attempt at a Solution


t1 = 8.45e-3 sec
t2 = 1.50e-2 sec
so should t = t1 + t2
then t1 + t2 = s/ 3.00e8 then just solve for s , i did solve for s this way but its wrong
 
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zeshkani_usa said:

Homework Statement


A celebrity holds a press conference, which is televised live. A television viewer hears the sound picked up by a microphone directly in front of the celebrity. This viewer is seated 2.9 m from the television set. A reporter at the press conference is located 5.2 m from the microphone and hears the words directly at the very same instant that the television viewer hears them. Using a value of 343 m/s for the speed of sound, determine the maximum distance between the television viewer and the celebrity.


Homework Equations


Let the time required for the sound to travel form the TV to the viewer be t1 = d1/v, where the symbols have their usual meaning. Let the time required for the sound to travel from the celebrity to the reporter be t2 = s2/v . The time required for the EM wave to travel to the viewer's set is t = s/c . Using the information given in the problem statement, construct a relationship between these three times.


The Attempt at a Solution


t1 = 8.45e-3 sec
t2 = 1.50e-2 sec
so should t = t1 + t2
then t1 + t2 = s/ 3.00e8 then just solve for s , i did solve for s this way but its wrong

Why have you added the times together?

Isn't the difference what you're interested in?
 
even adding or subtracting , its still the wrong asnwer
 
zeshkani_usa said:
even adding or subtracting , its still the wrong asnwer

There is no adding to get to the right answer.

Isn't time * velocity the distance though?
 
You have to divide the distances / speed of sound to get the two times, subtract, then multiply by speed of light.
remember: the reporter hears the sound at the exact same time as the viewer. you have to adjust the equation for the time that it takes both individuals to hear the sound and then adjust for the viewer who is "seeing" it.

d1/343 = t1

d2/343 = t2

(t1-t2) x 3e8


----exact same problem on hw...got it right.
 

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