Homework Answers
According to the given problem,
Every antinode indicates one
half-wavelength, so for 5 antinodes you have 5 half-wavelengths or
5/2 full-wavelengths.
5/2 wavelengths covers 150 cm, so a single wavelength is:
150cm / (5/2) = 60 cm = 0.6 m
Add Answer to:
The length of a string is 150 cm. The string is held fixed at each end....
A string of length 48 cm is held fixed at both ends such that waves travel...
A string of length 48 cm is held fixed at both ends such that waves travel along the string with a speed of 85 m/s. What must the frequency of a standing wave be for the closest node to the end of the string to be 16 cm from the end? a) 1060 Hz b) 782 Hz c) 531 Hz d) 354 Hz e) 266 Hz
A stretched string fixed at each end has a mass of 34.0 g and a length...
A stretched string fixed at each end has a mass of 34.0 g and a length of 8.60 m. The tension in the string is 47.0 N. (a) Determine the positions of the nodes and antinodes for the third harmonic. (Enter your answers from smallest to largest distance from one end of the string.) nodes: m m m m antinodes: m m m (b) What is the vibration frequency for this harmonic? Hz
A stretched string fixed at each end has a mass of 47.0 g and a length...
A stretched string fixed at each end has a mass of 47.0 g and a length of 7.40 m. The tension in the string is 45.0 N. a) Determine the positions of the nodes and antinodes for the third harmonic. (Enter your answers from smallest to largest distance from one end of the string.) Nodes: in m 1) 2) 3) 4) Antinodes: in m 1) 2) 3) b)What is the vibration frequency for this harmonic in Hz?
10-15 pls 010 10.0 points A sinusoidal transverse wave travels along a wire of linear density...
10-15 pls
010 10.0 points A sinusoidal transverse wave travels along a wire of linear density 8.34 g/m. The wave has amplitude 1.2 cm, frequency 132 Hz and wavelength 3.07 m What is the tension of the wire? Answer in units of N 011 (part 1 of 2) 10.0 points A standing wave is formed on a string that is 32 m long, has a mass per unit length 0.00512 kg/m, and is stretched to a tension of 18 N...
A string that is fixed at both ends has a length of 2.88 m. When the...
A string that is fixed at both ends has a length of 2.88 m. When the string vibrates at a frequency of 79.2 Hz, a standing wave with five loops is formed. (a) What is the wavelength of the waves that travel on the string? (b) What is the speed of the waves? (c) What is the fundamental frequency of the string?
A string that is fixed at both ends has a length of 2.05 m. When the...
A string that is fixed at both ends has a length of 2.05 m. When the string vibrates at a frequency of 74.8 Hz, a standing wave with five loops is formed. (a) What is the wavelength of the waves that travel on the string? (b) What is the speed of the waves? (c) What is the fundamental frequency of the string?
A stretched string fixed at each end has a mass of 40.0 g and a length...
A stretched string fixed at each end has a mass of 40.0 g and a length of 7.20 m. The tension in the string is 43.0 N. (a) Determine the positions of the nodes and antinodes for the third harmonic. (Enter your answers from smallest to largest distance from one end of the string.) nodes: m m m m antinodes: m m m b) What is the vibration frequency for this harmonic?
A stretched string fixed at each end has a mass of 35.0 g and a length...
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Part B & C please. A standing wave is set up in a 200-cm string fixed...
Part B & C please.
A standing wave is set up in a 200-cm string fixed at both ends. The string vibrates in 5 distinct segments when driven by a 120-Hz source. (a) What is the wavelength of the wave? a. 10 cm b. 20 cm c. 40 cm d. 80 cm e. 100 cm What is the fundamental frequency for this string? a. 48 Hz b. 12 Hz c. 24 Hz d. 86 Hz e. 240 Hz
A stretched string fixed at each end has a mass of 48.0 g and a length...
A stretched string fixed at each end has a mass of 48.0 g and a length of 7.00 m. The tension in the string is 55.0 N a) Determine the positions of the nodesand antinodes for the third harmonic (Enter your answers from smallest to largest distance from one end of the string.) b) What is the vibration frequency for this harmonic?
A string of length 48 cm is held fixed at both ends such that waves travel along the string with a speed of 85 m/s. What must the frequency of a standing wave be for the closest node to the end of the string to be 16 cm from the end? a) 1060 Hz b) 782 Hz c) 531 Hz d) 354 Hz e) 266 Hz
10-15 pls
010 10.0 points A sinusoidal transverse wave travels along a wire of linear density 8.34 g/m. The wave has amplitude 1.2 cm, frequency 132 Hz and wavelength 3.07 m What is the tension of the wire? Answer in units of N 011 (part 1 of 2) 10.0 points A standing wave is formed on a string that is 32 m long, has a mass per unit length 0.00512 kg/m, and is stretched to a tension of 18 N...
A stretched string fixed at each end has a mass of 35.0 g and a length of 8.80 m. The tension in the string is 53.0 N. (a) Determine the positions of the nodes and antinodes for the third harmonic. (Enter your answers from smallest to largest distance from one end of the string.) nodes: ε ε ε ε antinodes: ε ε ε (b) What is the vibration frequency for this harmonic? Z
Part B & C please.
A standing wave is set up in a 200-cm string fixed at both ends. The string vibrates in 5 distinct segments when driven by a 120-Hz source. (a) What is the wavelength of the wave? a. 10 cm b. 20 cm c. 40 cm d. 80 cm e. 100 cm What is the fundamental frequency for this string? a. 48 Hz b. 12 Hz c. 24 Hz d. 86 Hz e. 240 Hz
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