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Name: S A one meter long horiaontal wire stretched between the two fixed points is under...
4. A wire with mass density 1.00 g/m and length 1.80 m is stretched between two...
4. A wire with mass density 1.00 g/m and length 1.80 m is stretched between two (fixed) clamps. It is vibrated at its third harmonic with a frequency of 240 Hz. a) Draw the standing wave pattern, labeling nodes and antinodes. b) What is the tension in the string? c) What is the fundamental frequency?
d stretched wire vibrates in its fundamental mode at a frequency of 481 vibrations/s. What would...
d stretched wire vibrates in its fundamental mode at a frequency of 481 vibrations/s. What would be the fundamental frequency if the wire were half as long, with twice the diameter and 5.2 times the tension? Answer in units of Hz.
Q. A steel wire with mass 37.0 g and length 7.10 m is stretched tightly between...
Q. A steel wire with mass 37.0 g and length 7.10 m is stretched tightly between its two endpoints. In its fundamental mode, the wire vibrates at a frequency of 59.0 Hz. When plucked, traveling waves bounce from one end to the other. a) What is the speed of waves propagating along the wire? b) Calculate the tension in the wire. c) A standing wave at the fundamental frequency has an amplitude of 0.340 cm . Calculate the magnitude of...
A wire with mass 45.0 g is stretched so that its ends are tied down at points...
A wire with mass 45.0 g is stretched so that its ends are tied down at points a distance 81.0 cm apart. The wire vibrates in its fundamental mode with frequency 62.0 Hz and with an amplitude at the antinodes of 0.310 cm.
a) What is the speed of propagation of transverse waves in the wire?
v = ______ m/s
b) Compute the tension in the wire.
F = _____ N
c) Find the magnitude of the maximum transverse velocity of particles in...
A simple instrument consists of two metal strings stretched parallel to one another and attached at...
A simple instrument consists of two metal strings stretched parallel to one another and attached at both ends to boards perpendicular to the strings. The tension is the same in both strings, and the length of the strings is ` = 35.0 cm. The first string has a mass m = 8.00 g and generates middle C (frequency f = 262 Hz) when vibrating in its fundamental mode. a) What is the tension in the first string? b) If the...
A string 1.9m long with a mass of 2.1g is stretched between two fixed poisnts with...
A string 1.9m long with a mass of 2.1g is stretched between two fixed poisnts with a tension of 90N. Part A Find the frequency of the fundamental on this string. Express your answer using two significant figures. F1 = Hz
A tube 1.20 m long is closed at one end. A stretched wire is placed near...
A tube 1.20 m long is closed at one end. A stretched wire is placed near the open end. The wire is 0.330 m long and has a mass of 9.60 g. It is fixed at both ends and vibrates at the second harmonic. This sets the air column in the tube into oscillation at its fundamental frequency by resonance. (a) Find the frequency of oscillation of the air column and (b) the tension in the wire
A plunger can be moved back and forth in a hollow tube that is L = 150 cm long with two open ends. A stretched wire is placed near the open end, as shown in the figure. The l = 50.0 cm long, 5.0 gram...
A plunger can be moved back and forth in a hollow tube that is L
= 150 cm long with two open ends. A stretched wire is placed near
the open end, as shown in the figure. The l = 50.0 cm long, 5.0
gram wire is fixed at both ends and oscillates in its fundamental
mode. By resonance (meaning that the frequency of the string equals
the frequency of the air column in the tube), the string sets the...
A rope of length 1.40 m is stretched between two supports with a tension that makes...
A rope of length 1.40 m is stretched between two supports with a tension that makes the transverse waves have a speed of 47.9 m/s . Part A What is the wavelength of the fundamental harmonic? Part B What is the frequency of the fundamental harmonic? Part C What is the wavelength of the second overtone? Part D What is the frequency of the second overtone? Part E What is the wavelength of the fourth harmonic? Part F What is...
One string of a certain musical instrument is 80.0 cm long and has a mass of...
One string of a certain musical instrument is 80.0 cm long and has a mass of 8.79 g . It is being played in a room where the speed of sound is 344 m/s. To what tension must you adjust the string so that, when vibrating in its second overtone, it produces sound of wavelength 0.756 m ? (Assume that the breaking stress of the wire is very large and isn’t exceeded.) What frequency sound does this string produce in...
4. A wire with mass density 1.00 g/m and length 1.80 m is stretched between two (fixed) clamps. It is vibrated at its third harmonic with a frequency of 240 Hz. a) Draw the standing wave pattern, labeling nodes and antinodes. b) What is the tension in the string? c) What is the fundamental frequency?
d stretched wire vibrates in its fundamental mode at a frequency of 481 vibrations/s. What would be the fundamental frequency if the wire were half as long, with twice the diameter and 5.2 times the tension? Answer in units of Hz.
A wire with mass 45.0 g is stretched so that its ends are tied down at points a distance 81.0 cm apart. The wire vibrates in its fundamental mode with frequency 62.0 Hz and with an amplitude at the antinodes of 0.310 cm.
a) What is the speed of propagation of transverse waves in the wire?
v = ______ m/s
b) Compute the tension in the wire.
F = _____ N
c) Find the magnitude of the maximum transverse velocity of particles in...
A string 1.9m long with a mass of 2.1g is stretched between two fixed poisnts with a tension of 90N. Part A Find the frequency of the fundamental on this string. Express your answer using two significant figures. F1 = Hz
A plunger can be moved back and forth in a hollow tube that is L
= 150 cm long with two open ends. A stretched wire is placed near
the open end, as shown in the figure. The l = 50.0 cm long, 5.0
gram wire is fixed at both ends and oscillates in its fundamental
mode. By resonance (meaning that the frequency of the string equals
the frequency of the air column in the tube), the string sets the...
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