A uniform rope of mass `0.1 kg` and length `2.45 m` hangs from a ceiling.
(a) Find the speed of transverse wave in the rope at a point `0.5 m` distant from the lower end.
(b) Calculate the time taken by a transverse wave to travel the full length of the rope.

A reniform rope of mass 0.7 kg and length 2.45 in hangs from a ceiling (a) Find the speed of Transverse wave in the rope at a point 0.5m distrus from the lower end, b) Puste Calculate the time taken by a transverse wave to travel the full length of the rope (g=9.8m//s^(2)) .

A uniform rope of mass 0.1 kg and length 2.5 m hangs from ceiling. The speed of transverse wave in the rope at upper end at a point 0.5 m distance from lower end will be

A uniform rope of mass M=0.1kg and length L=10m hangs from the celling. [g=10m//s^(2)] :-

A uniform rope of mass M=0.1kg and length L=10m hangs from the celling. [g=10m//s^(2)] :-

A uniform rope of mass m and length L hangs from a celling. (a) Show that the speed of a transverse wave on the rope is a function of y , the distance from the lower end, and is given by t = 2sqrt(L//g) .

A uniform rope of mass m and length L hangs from a celling. (a) Show that the speed of a transverse wave on the rope is a function of y , the distance from the lower end, and is given by t = 2sqrt(L//g) .

A uniform rope of mass M=0.1kg and length L=10m hangs from the celling. [g=10m//s^(2)] :- (1)speed of transverse wave in the rope increases linearly from top to the bottom. (2)speed of the transverse wave in the rope decreases linearly from bottom to the top. (3)speed of the transverse wave in the rope remain constant along the length of the rope (4)time taken by the transverse wave to travel the full length of the rope is 2 sec.