Could anyone solve these BOTH questions, thank you.
1. A clarinet is an example of a closed pipe. If it is 60.0 cm long, determine the frequency of the third harmonic. Consider the speed of sound 342 m/s.
2. A bat sends a sound signal at a frequency of 100 kHz. Consider the sound traveling at 343m/s. The signal bounces against a rock and goes back to the bat. The animal is moving at 40 m/s toward the rock. Determine the new frequency perceived by the bat when the signal comes back.
Could anyone solve these BOTH questions, thank you. 1. A clarinet is an example of a...
Please answer all of these questions with brief explanations.
Thank you!
Name: Doppler ultrasound PROBLEM 4-8 points Ultrasound is the name we give to sound waves that have a higher frequency than 20 kHz, which is the maximum frequency our ears can respond to. For this problem, assume that high frequency sound waves travel through human tissue at 1500 m/s (about the speed of sound in water). 2 points] (a) Ultrasound equipment for diagnostic imaging typically uses frequencies between 1...
question 4-7
4. Travelling Waves and Their Characteristics A rope wave travels in the positive x -direction. You are also told that the speed of the wave is 1000 cm/s, its frequency is 200 Hz, and that the wave is subject to the following initial conditions: at x 0 and t = 0: y =-1 cm, and, at x = 0 and t : ar = +20 cm/s (this is the velocity of the point on the rope at horizontal...
can you please solve this problem step by step, thank
you!!
1. Consider a DSB-SC signal with noise passes through a demodulator shown below. ViC0) 2(0) но но 0) The input signal plus noise is v,(t)-5,() + n'(t) where 5,0): Am(1)cos2r/rt, m(1) cos 2π/J is the message signal with f-</м , carrier frequency is f> fe , and noise n' (r) has power spectral density function G,じ)= η . The local carrier is v,(1)s 2 cosZrw. The carrier filter is...