Sinusoidal waves 5.00 cm in amplitude are to be transmitted along a string that has a linear mass density of `4.00xx10^(-2)kg//m`. The source can deliver a macimum power of 300 W and the string is under a tesion of 100 N. what is the highest frequancy at which the source can operate?

Sinusoidal waves 5.00 cm in amplitude are to be transmitted along a string having a linear mass density equal to 4.00xx10^-2kg//m . If the source can deliver a maximum power of 90W and the string is under a tension of 100N , then the highest frequency at which the source can operate is (take pi^2=10 )

Sinusoidal waves 5.00 cm in amplitude are to be transmitted along a string having a linear mass density equal to 4.00xx10^-2 kg//m .If the source can deliver a average power of 90 W and the string is under a tension of 100 N, then the highest frequency at which the source can operate is (take pi^2=10 ):

A 100 Hz sinusoidal wave is travelling in the posotive x-direction along a string with a linear mass density of 3.5 xx10^(-3) kg//m and a tension of 35 N . At time t= 0 , the point x=0 , has maximum displacement in the positive y-direction. Next when this point has zero displacement, the slope of the string is pi//20 . Which of the following expression represent (s) the displacement of string as a function of x (in metre) and t (in second)

A steel wire 0.72 m long has a mass of 5.0 xx 10^(-3) kg . If the wire is under a tension of 60 N, what is the speed of transverse waves on the wire ?

A 100 Hz sinusoidal wave is travelling in the positve x - direaction along a string with a linear mass density of 3.5 xx10^(-3) kgm ^(-1) and a tension of 35 N. At time t =0 ,the point x=0 has zero displacment and the slope of the string is pi//20 then select the wrong alternative.

A 2.0m long string with a linear mass density of 5.2xx10^(-3) kg m^(-1) and tension 52N has both of its ends fixed. It vibrates in a standing wave patten with four antinodes. Frequency of the vibraion is :-

A piano string having a mass per unit length equal to 5.00 xx 10^(3)kg//m is under a tension of 1350 N , Find the speed with which a wave travels on this string.

In the arrangement shown in Fig. 7.100 , mass can be hung from a string with a linear mass density of 2 xx 10^(-3) kg//m that passes over a light pulley . The string is connected to a vibrator of frequency 700 Hz and the length of the string between the vibrator and the pulley is 1 m . If the mass suspended is 16 kg , then the number of loops formed in the string is

A 200 Hz wave with amplitude 1 mm travels on a long string of linear mass density 6 g//m keep under a tension of 60 N . (a) Find the average power transmitted across a given point on the string. (b) Find the total energy associated with the wave in a 2.0 m long portion of the string.

A 200 Hz wave with amplitude 1 mm travels on a long string of linear mass density 6 g//m keep under a tension of 60 N . (a) Find the average power transmitted across a given point on the string. (b) Find the total energy associated with the wave in a 2.0 m long portion of the string.