A 1.5 m long string is tied between two posts. what is the wavelength of the...
A 1.5 m long string is tied between two posts. what is the wavelength of the 2nd harmonic standing wave in the string?
A/ 0.75m
B/ 1.0m
C/ 0.5 m
D/ 1.5 m
e/ 2.0 m
Homework Answers
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A 1.5 m long string is tied between two posts. what is the
wavelength of the...
2.) The 2nd harmonic of a violin string with a length of 32 cm (between the fixed ends) and density of 0.15 kg/m resonates with the third harmonic of a 2.0-m long organ pipe with one end closed an...
2.) The 2nd harmonic of a violin string with a length of 32 cm (between the fixed ends) and density of 0.15 kg/m resonates with the third harmonic of a 2.0-m long organ pipe with one end closed and the other end open. (a) Draw a diagram for the problem, labelling the known and unknown variables. In your diagram, e standing waves for both the violin string and the organ pipe. For the organ pipe, graph the standing wave in...
Q4 A long string is tied between two posts very far apart (treat as infinitely far)....
Q4
A long string is tied between two posts very far apart (treat as infinitely far). Waves on this string travel with speed 71 m/s. The string is being driven by two oscillators. One is located at X 0 m and the other is located at X2 6 m. Oscillator 1 drives at 687 Hz with amplitude 1.4 cm, and oscillator 2 drives a 293 Hz with amplitude 2.9 cm. Both oscillators start at maximum displacement when t 0 s....
A long string is tied between two posts very far apart (treat as infinitely far). Waves...
A long string is tied between two posts very far apart (treat as infinitely far). Waves on this string travel with speed 71 m/s. The string is being driven by two oscillators. One is located at X 0 m and the other is located at X2 6 m. Oscillator 1 drives at 687 Hz with amplitude 1.4 cm, and oscillator 2 drives a 293 Hz with amplitude 2.9 cm. Both oscillators start at maximum displacement when t 0 s. What...
A 5.15-m-long string that is fixed at one end and attached to a long string of...
A 5.15-m-long string that is fixed at one end and attached to a long string of negligible mass at the other end is vibrating in its fifth harmonic, which has a frequency of 396 Hz. The amplitude of the motion at each antinode is 3.09 cm. (a) What is the wavelength of this wave? (b) What is the wave number? m-1 (c) What is the angular frequency? (d) Write the wave function for this standing wave. (Use the following as...
A long string is tied between two posts very far apart (treat as infinitely far). Waves...
A long string is tied between two posts very far apart (treat as infinitely far). Waves on this string travel with speed 52 m/s. The string is being driven by two oscillators. One is located at LaTeX: X_1=0 X 1 = 0 m and the other is located at LaTeX: X_2=6 X 2 = 6 m. Oscillator 1 drives at 638 Hz with amplitude 1.3 cm, and oscillator 2 drives a 426 Hz with amplitude 2.4 cm. Both oscillators start...
A long string is tied between two posts very far apart (treat as infinitely far). Waves...
A long string is tied between two posts very far apart (treat as infinitely far). Waves on this string travel with speed 75 m/s. The string is being driven by two oscillators. One is located at X1=0 m and the other is located at X2=6 m. Oscillator 1 drives at 575 Hz with amplitude 1.6 cm, and oscillator 2 drives a 325 Hz with amplitude 3.7 cm. Both oscillators start at maximum displacement when t=0 s. What is the displacement...
Question 4 1 pts A long string is tied between two posts very far apart (treat...
Question 4 1 pts A long string is tied between two posts very far apart (treat as infinitely far). Waves on this string travel with speed 58 m/s. The string is being driven by two oscillators. One is located at X 0 m and the other is located at X2 6 m. Oscillator 1 drives at 560 Hz with amplitude 2.7 cm, and oscillator 2 drives a 200 Hz with amplitude 2.9 cm. Both oscillators start at maximum displacement when...
A 5.45-m-long string that is fixed at one end and attached to a long string of...
A 5.45-m-long string that is fixed at one end and attached to a long string of negligible mass at the other end is vibrating in its fifth harmonic, which has a frequency of 392 Hz. The amplitude of emotici at each antinode is 2.38 cm. (a) What is te wavelength of this wave? As - (b) What the wae number? ks (c) Wt is the ngular frequency? (d) Write the wave function for this standing wave. (Use the following as...
A string 3.30 m long and fixed at both ends is vibrating in its third harmonic....
A string 3.30 m long and fixed at both ends is vibrating in its third harmonic. The maximum displacement of any point on the string is 4.00 mm. The speed of transverse waves on this string is 59.5 m/s. (a) What are the wavelength and frequency of this standing wave? wavelength m frequency Hz (b) Write the wave function for this standing wave.
a 2.0 m length of string with a mass density of 2.95 x 10^-4 kg/m is...
a 2.0 m length of string with a mass density of 2.95 x 10^-4
kg/m is fixed at both ends and driven at 120 Hz. The tension is
varied to obtain standing waves (resonance) on the string.
1. what is the longest wavelength for a standing wave possible
on the string?
2. the tension on the string is varies to obtain fourth
harmonic
a. what is the wavelength of this standing wave?
b. what is the wave speed
3. what...
2.) The 2nd harmonic of a violin string with a length of 32 cm (between the fixed ends) and density of 0.15 kg/m resonates with the third harmonic of a 2.0-m long organ pipe with one end closed and the other end open. (a) Draw a diagram for the problem, labelling the known and unknown variables. In your diagram, e standing waves for both the violin string and the organ pipe. For the organ pipe, graph the standing wave in...
Q4
A long string is tied between two posts very far apart (treat as infinitely far). Waves on this string travel with speed 71 m/s. The string is being driven by two oscillators. One is located at X 0 m and the other is located at X2 6 m. Oscillator 1 drives at 687 Hz with amplitude 1.4 cm, and oscillator 2 drives a 293 Hz with amplitude 2.9 cm. Both oscillators start at maximum displacement when t 0 s....
A long string is tied between two posts very far apart (treat as infinitely far). Waves on this string travel with speed 71 m/s. The string is being driven by two oscillators. One is located at X 0 m and the other is located at X2 6 m. Oscillator 1 drives at 687 Hz with amplitude 1.4 cm, and oscillator 2 drives a 293 Hz with amplitude 2.9 cm. Both oscillators start at maximum displacement when t 0 s. What...
A 5.15-m-long string that is fixed at one end and attached to a long string of negligible mass at the other end is vibrating in its fifth harmonic, which has a frequency of 396 Hz. The amplitude of the motion at each antinode is 3.09 cm. (a) What is the wavelength of this wave? (b) What is the wave number? m-1 (c) What is the angular frequency? (d) Write the wave function for this standing wave. (Use the following as...
Question 4 1 pts A long string is tied between two posts very far apart (treat as infinitely far). Waves on this string travel with speed 58 m/s. The string is being driven by two oscillators. One is located at X 0 m and the other is located at X2 6 m. Oscillator 1 drives at 560 Hz with amplitude 2.7 cm, and oscillator 2 drives a 200 Hz with amplitude 2.9 cm. Both oscillators start at maximum displacement when...
A 5.45-m-long string that is fixed at one end and attached to a long string of negligible mass at the other end is vibrating in its fifth harmonic, which has a frequency of 392 Hz. The amplitude of emotici at each antinode is 2.38 cm. (a) What is te wavelength of this wave? As - (b) What the wae number? ks (c) Wt is the ngular frequency? (d) Write the wave function for this standing wave. (Use the following as...
a 2.0 m length of string with a mass density of 2.95 x 10^-4
kg/m is fixed at both ends and driven at 120 Hz. The tension is
varied to obtain standing waves (resonance) on the string.
1. what is the longest wavelength for a standing wave possible
on the string?
2. the tension on the string is varies to obtain fourth
harmonic
a. what is the wavelength of this standing wave?
b. what is the wave speed
3. what...
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