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. maximum magnitude of transverse acceleration of any point on the rope will be nearly

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. Tension in the given rope remaining the same, if a simple harmonic oscillator of frequency 200 Hz is used instead of the earlier oscillator of frequency 100 Hz

A rope is attached at one end to a fixed vertical pole . It is stretched horizontal with a fixed value of tension T . Suppose at t=0 , a pulse is generated by moving the free end of the rope up and down once with your hand. The pulse arrives at the pole at instant t . Ignoring the effect of gravity, answer the following quetions. If you use a string of same length but of greater mass

A rope is attached at one end to a fixed vertical pole . It is stretched horizontal with a fixed value of tension T . Suppose at t=0 , a pulse is generated by moving the free end of the rope up and down once with your hand. The pulse arrives at the pole at instant t . Ignoring the effect of gravity, answer the following quetions. In all the above, quetions we have considered a fixed value of tension. however, if tension in a given rope is increased and a pulse is genrated as described,

One end of a 60m long rope of mass 1.8 kg is tied to a rigid horizontal support held high above the ground. The rope hangs vertically and kept taut by a weight 'W' suspended at its lower end. A person jerks the lower end of the rope sideways in a sinusoidal manner and a transverse wave of frequency 2 Hz and amplitude 10cm passes along the rope such that there are 2 cycles of the wave in the total length of the rope. Neglecting the weight of the rope as compared to the suspended weight W and with g = 10m/s2, answer the following questions. (S = 75 xx 10^(-4) m^2) In the questions above, weight of the rope has been neglected as compared to the suspended weight. However, if we also account for the weight of the rope. the speed of the wave at the top of the rope will be

In figure the tension in the rope (rope is light) is

What is the speed of a transverse wave in a rope of length 10 m and mass 80 gm under a tension of 80 N?

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 stretched rope having linear mass density 5xx10^(-2)kg//m is under a tension of 80 N . the power that has to be supoplied to the rope to generate harmonic waves at a frequency of 60 Hz and an amplitude of (2sqrt2)/(15pi)m is

A rope of length L and mass m hangs freely from the ceiling. The velocity of transverse wave as a function of position x-along the rope is proportional to