A string is hanging from a rigid support. A transverse
pulse is excited at its free end. The speed at which the
pulse travels a distance x is proportional to

A string is hanging from a rigid support. A transverse wave pulse is set up at the bottom. The velocity v of thr pulse related to the distance covered by it is given as

A wire of length L, is hanging vertically from a rigid support. If a transverse wave pulse is generated at the free end of wire then which of the following statement is wrong

A Uniform rope having mass m hags vertically from a rigid support. A transverse wave pulse is produced at the lower end. The speed v of wave pulse varies with height h from the lower end as

A uniform rope of length 12 m and mass 4 kg is hung vertically from a rigid support transverse wave pulse is produced at lower end. The speed of the wave pulse al x = 2.5 m from lower and will be kg=10 m/s)

A heavy rope is suspended from a rigid support A wave pulse is set up at the lower end, then

A heavy rope is suspended from a rigid support A wave pulse is set up at the lower end, then

A uniform string of length 20m is suspended from a rigid support. A short wave pulse is introduced at its lowest end. It starts moving up the string. The time taken to reach the support is : (take g = 10ms^(-2) )

A thick uniform rope of length L is hanging from a rigid support. A transverse wave of wavelength lamda_(0) is set up in the middle of the rope. The wavelength of the wave as it reaches the top most point is

A uniform string of length 10 m is suspended from a rigid support A short wave pulse is introduced at its lowest end it starts moving up the string the time taken to reach the support is (take g=10m//sec^(2) )

A uniform rope of elngth l and mass m hangs vertically from a rigid support. A block of mass m is attached to the free end of the rope. A transverse pulse of wavelength lambda is produced at the lower end of the rope. The wavelength of the pulse, when it reaches the top of the rope. is alambda . Find a^(2)