A tuning fork vibrating at 512 Hz falls from rest and accelerates at 9.80 m/s 2 . How far below the point of release is the tuning fork when waves of frequency 485 Hz reach the release point? Hint: The speed of sound is 343 m/s
A tuning fork vibrating at 512 Hz falls from rest and accelerates at 9.80 m/s 2...
A tuning fork vibrating at 512 Hz falls from rest and accelerates at 9.80 m/s2. How far below the point of release is the tuning fork when waves of frequency 485 Hz reach the release point?
NAME A tuning fork vibrating at 512 Hz falls from rest and How far below the point of release is the tuning fork when waves of frequency 485 Hz reach the release point? Assume the speed of sound is 343 m/s. as a result of gravity
Can you please explain all parts I meant to ask this question A block with a speaker bolted to it is connected to a spring having spring constant k = 24.0 N/m and oscillates as shown in the figure below. The total mass of the block and speaker is 3.00 kg, and the amplitude of this unit's motion is 0.500 m. The speaker emits sound waves of frequency 500 Hz. www (a) Determine the highest frequencies heard by the person...
A woman drops a vibrating tuning fork, which is vibrating at 516 Hertz, from a tall building. Through what distance (in m) has the tuning fork fallen when the frequency detected at the starting point is 484 Hertz? (Assume the speed of sound in air is 343 m/s.)
A tuning fork generates sound waves with a frequency of 232 Hz. The waves travel in opposite directions along a hallway, are reflected by walls, and return. The hallway is 42.0 m long and the tuning fork is located 14.0 m from one end. What is the phase difference between the reflected waves when they meet at the tuning fork? The speed of sound in air is 343 m/s.
A tuning fork generates sound waves with a frequency of 252 Hz. The waves travel in opposite directions along a hallway, are reflected by walls, and return. The hallway is 47.0 m long and the tuning fork is located 14.0 m from one end. What is the phase difference between the reflected waves when they meet at the tuning fork? The speed of sound in air is 343 m/s. (I got 304.9 and it says "Your response is within 10%...
A bicyclist is moving toward a sheer wall while holding a tuning fork rated at 464 Hz. If the bicyclist detects a beat frequency of 6 Hz (between the waves coming directly from the tuning fork and the echo waves coming from the sheer wall), calculate the speed of the bicycle. Assume the speed of sound is 343 m/s.
A vibrating tuning fork is held above a column of air. The fundamental frequency is 343 Hz The water level is lowered until a third resonance is heard. Calculate the length of the air column that produces this third resonance. The original length was .25m The speed of sound in air is 343m/s Please show work The answer sheet lists the answer as 1.25m
Tuning fork 1 Tuning fork 2 Bob 9.0 m - 3.0m - Two identical tuning forks are positioned 9.0 m apart, and emit sound equally in all directions. Alex is standing exactly halfway between the tuning forks, and Bob is standing 3.0 m to the right of the rightmost tuning fork. Alex hears an intensity of one tuning fork of 55 dB playing at 300 Hz. 1. How much power is emitted as sound by one tuning fork? 2. When...
All the Q's Q8: A 1024 Hz tuning fork is used to obtain a series of resonance levels in a gas column of variable length, with one end closed and the other open. The length of the column changes by 10 cm from resonance to resonance. From this data, the speed of sound in this gas is: (***) A. 205 cm/s B. 340 m/s C. 165 m/s D. 410 m/s V-(10 24)(4)(0,1) Q9: A vibrating tuning fork is held over...