A person with a radio-wave receiver starts out equidistant from two FM radio transmitters A and B that are 11.0 m apart, each one emitting in-phase radio waves at 82.0 MHz. She then walks so that she always remains 50.0 m from transmitter B (Figure 1). Limit your solution to the cases where z2 50.0 m. Figure 1 of 1 Provide 50.0 m Part A For what values of z will she find the radio signal to be maximally enhanced? Enter your answers in meters in ascending order separated by commas.
A person with a radio-wave receiver starts out equidistant from two FM radio transmitters A and B that are 11.0 m apart, each one emitting in-phase radio waves at 82.0 MHz. She then walks so that she always remains 50.0 m from transmitter B (Figure 1). Limit your solution to the cases where z2 50.0 m. Figure 1 of 1 Provide 50.0 m Part A For what values of z will she find the radio signal to be maximally enhanced? Enter your answers in meters in ascending order separated by commas.
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A person with a radio-wave receiver starts out equidistant from two FM
radio transmitters A and B that are 11.0 m apart, each one emitting
in-phase radio waves at 82.0 MHz She then walks so that she
always remains 50.0 m from transmitter B (Figure 1). Limit your
solution to the cases where > 50.0 m.
Figure
1 of 1
Provide
50.0 m
Part A
For what values of z will she find the radio signal to be maximally enhanced?
Enter your answers in meters in ascending order separated by commas.
?
T0, 1, ...=
m
Submit
Request Answer
Part B
For what values of z will she find the radio signal to be cancelled?
Enter your answers in meters in ascending order separated by commas.
20, 1,...
Submit
Request Answer
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