True or False. 29. The speed of a wave is equal to the frequency divided by...

A guitar string of length 72.8 cm (which might be out of tune) has been plucked...

A guitar string of length 72.8 cm (which might be out of tune) has been plucked and is producing a note of frequency 334 Hz. (a) What is the speed of transverse traveling waves on this guitar string? Give your answer in m/s. HINT: The note you hear is produced by the vibrational mode of the string which has the fundamental (lowest possible) frequency. Draw a picture of the string vibrating in that mode and determine the wavelength of the...

Consider a loop in the standing wave created by two waves (amplitude 5.86 mm and frequency...

Consider a loop in the standing wave created by two waves (amplitude 5.86 mm and frequency 113 Hz) traveling in opposite directions along a string with length 2.89 m and mass 129 g and under tension 44.0 N. At what rate does energy enter the loop from (a) each side and (b) both sides? (c) What is the maximum kinetic energy of the string in the loop during its oscillation?

Consider a loop in the standing wave created by two waves (amplitude 5.58 mm and frequency...

Consider a loop in the standing wave created by two waves (amplitude 5.58 mm and frequency 115 Hz) traveling in opposite directions along a string with length 3.98 m and mass 145 g and under tension 42.4 N. At what rate does energy enter the loop from (a) each side and (b) both sides? (c) What is the maximum kinetic energy of the string in the loop during its oscillation?

A traveling wave on a string oscillates with an amplitude of 0.080m and a frequency of...

A traveling wave on a string oscillates with an amplitude of 0.080m and a frequency of 2.5Hz. The speed of the waves on the string is 10 m/s. At t=0, the end from which the oscillations originate has a vertical displacement of 0m. a) Find the angular frequency, period, wavelength, and wave number. b) Write a wave function describing the wave. c) The linear mass density μ of the string is 0.300kg/m, and tension in the spring is maintained at...

1-state the relationship between a wave's velocity wavelength and frequency? 2- What is the principle of...

1-state the relationship between a wave's velocity wavelength and frequency? 2- What is the principle of superposition? 3- The distance between two nodes or two antinodes in a standing wave is …………………. Wavelength? 4- - The distance between an antinode and a node in a standing wave is …………………. Wavelength? 5- A string, which has a mass of 0.50 kg and a length of 3.0 meters, is clamped on both ends. If the tension in the string is 25 Newtons,...

#1 If the fundamental frequency of an 76 cm long guitar string is 460 Hz, what...

#1 If the fundamental frequency of an 76 cm long guitar string is 460 Hz, what is the speed of the traveling waves? #2: You have an organ pipe that resonates at frequencies of 800, 1120, and 1440 Hz but nothing between these. It may resonate at lower and higher frequencies as well. What is the fundamental frequency for this pipe?

The waves that stay in the middle by reflecting and changing phase, without canceling out, are...

The waves that stay in the middle by reflecting and changing phase, without canceling out, are called standing waves because they take shape that does not vary with time. 6- The set of free frequencies in which a system can vibrate is known as natural frequencies. 7- Transverse waves in the string vibrate to the medium in the direction of wave propagation. The wavelength vs frequency graph has the form of? A- straight line B- circle C- Parable D- Square...

*I NEED ALL THE QUESTIONS ANSWERS* 1.When the period of oscillation decreases, the (a) amplitude increases,...

*I NEED ALL THE QUESTIONS ANSWERS* 1.When the period of oscillation decreases, the (a) amplitude increases, (b) frequency    increases, (c) wavelength increases, (d) frequency decreases. 2.Sound is (a) transverse wave, (b) longitudinal wave, (c) standing wave, (d) magnetic wave. 3.When two waves interfere, which of the following add? (a) wavelength, (b) frequency, (c) phase, (d) amplitude. 4.The wave speed is equal to (a) the ratio of the frequency and wavelength, (b) the ratio of the frequency and the period, (c)...

A sinusoidal wave is traveling on a string with speed 40 ??/?. The displacement of the...

A sinusoidal wave is traveling on a string with speed 40 ??/?. The displacement of the particles of the string at ? = 10 ?? varies with time according to ? = (5.0 ??) sin(1.0 − 4.0?). The linear density of the string is 4.0 ?/??. What are a) the frequency and b) the wavelength of the wave? If the wave equation is of the form ?(?,?) = ? sin(?? ± ??), what are c) ?, d) ?, e) ?,...

10. [1pt] Consider a transverse harmonic wave travelling along a string. Enter true (T) or false...

10. [1pt] Consider a transverse harmonic wave travelling along a string. Enter true (T) or false (F) for the following statements. For example, if the first statement is true and the rest false, enter TFF. You have 4 tries. Increasing the amplitude of the wave increases its frequency. If a wave with a frequency of 10 Hz travels along a string with a mass per unit length of 40 g/m stretched to a tension of 100 N, its wavelength is...