b. Again: Assume Waves are transmitted from Source to Receiver. But now: Assume the Receiver is RECEDING from the Source at a speed of 80 m/s relative to the Air. Assume that the Source is stationary relative to the Air. i. Draw a diagram of the situation as you understand it, making sure to label all values and making absolutely sure to explicate the direction. ii. As measured by the Source (relative to the Source), what is the velocity of these waves? iii. As measured by the Source, what is the wavelength of these waves? iv. As measured by the Receiver, what is the velocity of these waves? v. As measured by the Receiver, what is the wavelength of these waves? vi. As measured by the Receiver, what is the frequency of these waves?

Transcribed Image Text:

b. Again: Assume Waves are transmitted from Source to Receiver. But now: Assume the Receiver is RECEDING from the Source at a speed of 80 m/s relative the Air. Assume that the Source is stationary relative to the Air. i. Draw a diagram of the situation as you understand it, making sure to label all values and making absolutely sure to explicate the + direction. ii. As measured by the Source (relative to the Source), what is the velocity of these waves? iii. As measured by the Source, what is the wavelength of these waves? iv. As measured by the Receiver, what is the velocity of these waves? v. As measured by the Receiver, what is the wavelength of these waves? vi. As measured by the Receiver, what is the frequency of these waves?

Transcribed Image Text:

NOTE: The values GIVEN HERE (***) are NOT ALL the same as the values attached. For all parts of this problem, assume: *** Relative to the medium of air, these waves travel at a speed of 400 m/s. *** Relative to the source, both these waves and these particles are emitted at a frequency of 800 Hz. *** Relative to the source, these particles travel at a speed of 400 m/s.