Consider a three-loop standing wave on a 9.45-m spring. If the frequency is 1.25 Hz, find the speed (m/s) of the waves traveling along the spring.
Consider a three-loop standing wave on a 9.45-m spring. If the frequency is 1.25 Hz, find...
A standing wave on a string that is fixed at both ends has frequency 80.0 Hz. The distance between adjacent antinodes of the standing wave is 16.0 cm. What is the speed of the waves on the string, in m/s?
Two sinusoidal waves traveling in opposite directions interfere to produce a standing wave with the following wave function, where x is in meters and t is in seconds. y = (3.00 m) sin(0.900x) cos(6000) Determine the wavelength of the interfering waves. m What is the frequency of the interfering waves? Hz Find the speed of the interfering waves. m/s
Two sinusoidal waves traveling in opposite directions interfere to produce a standing wave with the following wave function, where x is in meters and t is in seconds. y = (3.00 m) sin(0.800x) cos(600t) Determine the wavelength of the interfering waves. m What is the frequency of the interfering waves? Hz Find the speed of the interfering waves. m/s
Two nearby nodes of a standing wave are separated by 4.1 m. If the frequency of the wave is 185 Hz, what is the speed of the wave? m/s
Two waves are generated on a string of length 5.4 m to produce a three-loop standing wave with an amplitude of 3.2 cm. The wave speed is 100 m/s. Let the equation for one of the waves be of the form y(x, t) = ym sin (kx + ωt). In the equation for the other wave, what are (a) ym the answer is NOT 0.032 m. I need the answer in meter i
Two waves are generated on a string of length 5.4 m to produce a three-loop standing wave with an amplitude of 3.2 cm. The wave speed is 100 m/s. Let the equation for one of the waves be of the form y(x, t) = ym sin (kx + ωt). In the equation for the other wave, what are (a) ym, (b) k, (c) ω, and (d) the sign in front of ω?
Suppose that the frequency of an ideal spring at the first harmonic is 20.0 Hz and the wavelength of the wave is 4.0 m. At the fourth harmonic, what would be the wavelength, the frequency, and the speed of the wave? The frequency of the standing wave when there is one loop is called the fundamental frequency of the first harmonic. In general, what statement can be made about the degree to which the frequency at each of the harmonics...
Two sinusoidal waves traveling in opposite directions interfere to produce a standing wave with the following wave function, where x is in meters and t is in seconds. y = (3.00 m) sin(0.200x) cos(2006) Determine the wavelength of the interfering waves. What is the frequency of the interfering waves? Hz Find the speed of the interfering waves. m/s Two sinusoidal waves combining in a medium are described by the following wave functions, where x is in centimeters and t is...
part 1. A 9.00-m long string sustains a three-loop standing wave pattern as shown. The string has a mass of 45 g and under a tension of 50 N. a. What is the frequency of vibration? b. At the same frequency, you wish to see four loops, what tension you need to use. Part 2. a. Determine the shortest length of pipe, open at both ends, which will resonate at 256 Hz (so the first harmonics is 256Hz). The speed...
Two waves are generated on a string of length 5.9 m to produce a three-loop standing wave with an amplitude of 4.0 cm. The wave speed is 115 m/s. Let the equation for one of the waves be of the form y(x, t) = ym sin (kx + ωt). In the equation for the other wave, what are (a) ym, (b) k, (c) ω, and (d) the sign in front of ω? (a) 0.02 Units: m (b) _______ Units: rad/m...