A sinusoidal wave is travelling along a rope. The oscillator that genertes the wave completes `60` vibrations in `30 s` Also, a given maximum travels `425 cm`, along the rope in `10.0 s`. What is the wavelength ?

A sinusoida wave is travelling along a rope. The oscillator that generates wave completes 40.0 vibration in 30.0 s. also, a given 'maximum' travels 425 cm along the rope in 10.0 s. what is the wavelength of the wave ?

A sinusoida wave is travelling along a rope. The oscillator that generates wave completes 40.0 vibration in 30.0 s. also, a given 'maximum' travels 425 cm along the rope in 10.0 s. what is the wavelength of the wave ?

A harmonic wave is travelling along +ve x-axis, on a stretched string. If wavelength of the wave gets doubled, then

A harmonic wave is travelling along +ve x-axis, on a stretched string. If wavelength of the wave gets doubled, then

A sinusoidal wave travels along a string. The time for a particular point to move from maximum placement to zero is 0.135s. What are the (a) period and (b) frequency? (c) The wavelength is 1. 40m, what is the wave speed?

One end of a long rope is tied to a fixed vertical pole. The rope is stretched horizontally with a tension 8 N. Let us consider the length of the rope to be along X-axis. A sample harmonic oscillator at x = 0 generates a transverse wave of frequency 100 Hz and amplitude 2 cm along the rope. Mass of a unit length of the rope is 20 gm/m. Ignoring the effect of gravity, answer the following questions Wavelength of the wave is

One end of a long rope is tied to a fixed vertical pole. The rope is stretched horizontally with a tension 8 N . Let us cinsider the length of the rope to be along x-axis. A simple harmonic oscillator at x=0 generates a transverse wave of frequency 100 Hz and amplitude 2 cm along the rope. Mass of a unit length of the rope is 20 g//m . ignoring the effect of gravity, answer the following quetions. Wavelength of the wave is

A sound wave completes one oscillation in 0.002 s and moves a distance of 30 cm. Find the frequency of the wave.