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

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. 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. which of the following is correct?

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

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

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. Assuming that the oscillatior has its maximum negative displacement at t=0 , wave equation function ) for the wave can be expressed as y=