A wave pulse is travelling on a string of linear mass density `6.4xx10^(-3)kg m^(-1)` under a load of 80 kgf. Calculate the time taken by the pulse to traverse the string , if its length is 0.7 m

A way pulse is travelling on a string of linear mass density 6.4 xx 10^(-3)kg m^(-1) under a load of 80 kgf . Calculate the time taken by the pulse to traverse the string, if its length is 0.7 m .

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.

Figure shows a string of linear mass density 1.0g cm^(-1) on which a wave pulse is travelling. Find the time taken by pulse in travelling through a distance of 50 cm on the string. Take g = 10 ms^(-2)

Figure shows different standing wave patterns on a string of linear mass density 4.0 xx 10^-2 kg//m under a tension of 100 N. The amplitude of antinodes is indicated in each figure. The length of the string is 2.0m. (i) Obtain the frequencies of the modes shown in figures (a) and (b). (ii)Write down the transverse displacement y as a function of x and t for each mode. (Take the initial configuration of the wire in each mode to be as shown by the dark lines in the figure).

Figure showa a string of linear mass density 1.0gcm^-1 on which a wave pulse is travelling. Find the time taken by the pulse in travelling through a distance of 50 cm on the string. Take g=10 ms^-2 .

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.

The velocity of transverse wave in string whose linear mass density is 3×10^-2 kg/m stretched by a load of 30 kg is (Take g=10 m/s^2 )

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.

A wire stretched between two rigid supports vibrates in its fundamental mode with a frequency of 45Hz. The mass of the wire is 3.5xx10^(-2) kg and its linear mass density is 4.0xx10^(-2)kgm^(-1) . What is (a) the speed of a transverse wave on the string , and (b) the tension in the string?