1.) In the example of the cannons at USMA from the speed of sound content in this module, the source (cannon) and the observer (me) were stationary.  Let us assume the wavelength of the sound the cannon made was 1.710m.  Consider three observers that are 1.200km away from the cannons on that day: Observer A: stationary Observer B: in a vehicle moving with speed 39 m/s directly away from the cannon Observer C: in a vehicle moving with speed 39 m/s directly toward the cannon Calculate the frequency of the cannon sound according to Observer A. 2.) In the example of the cannons at USMA from the speed of sound content in this module, the source (cannon) and the observer (me) were stationary.  Let us assume the wavelength of the sound the cannon made was 1.710m.  Consider three observers that are 1.200km away from the cannons on that day: Observer A: stationary Observer B: in a vehicle moving with speed 13.4 m/s directly away from the cannon Observer C: in a vehicle moving with speed 13.4 m/s directly toward the cannon Calculate the frequency of the cannon sound according to Observer B.   3.) In the example of the cannons at USMA from the speed of sound content in this module, the source (cannon) and the observer (me) were stationary.  Let us assume the wavelength of the sound the cannon made was 1.710m.  Consider three observers that are 1.200km away from the cannons on that day: Observer A: stationary Observer B: in a vehicle moving with speed 43.6 m/s directly away from the cannon Observer C: in a vehicle moving with speed 43.6 m/s directly toward the cannon   Calculate the frequency of the cannon sound according to Observer C

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1.) In the example of the cannons at USMA from the speed of sound content in this module, the source (cannon) and the observer (me) were stationary.  Let us assume the wavelength of the sound the cannon made was 1.710m.  Consider three observers that are 1.200km away from the cannons on that day:
Observer A: stationary
Observer B: in a vehicle moving with speed 39 m/s directly away from the cannon
Observer C: in a vehicle moving with speed 39 m/s directly toward the cannon

Calculate the frequency of the cannon sound according to Observer A.

2.) In the example of the cannons at USMA from the speed of sound content in this module, the source (cannon) and the observer (me) were stationary.  Let us assume the wavelength of the sound the cannon made was 1.710m.  Consider three observers that are 1.200km away from the cannons on that day:
Observer A: stationary
Observer B: in a vehicle moving with speed 13.4 m/s directly away from the cannon
Observer C: in a vehicle moving with speed 13.4 m/s directly toward the cannon

Calculate the frequency of the cannon sound according to Observer B.

 

3.) In the example of the cannons at USMA from the speed of sound content in this module, the source (cannon) and the observer (me) were stationary.  Let us assume the wavelength of the sound the cannon made was 1.710m.  Consider three observers that are 1.200km away from the cannons on that day:
Observer A: stationary
Observer B: in a vehicle moving with speed 43.6 m/s directly away from the cannon
Observer C: in a vehicle moving with speed 43.6 m/s directly toward the cannon

 

Calculate the frequency of the cannon sound according to Observer C.

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