A horizontal stretched string, fixed at two ends, is vibrating in its fifth harmonic according to the equation, `y(x,t)=(0.01 m) sin[(62.8 m^(-1)x] cos[(628 s^(-1))t]`. Assuming `p = 3.14`, the correct statement(s) is (are)

A horizontal stretched string, fixed at two ends, is vibrating in its fifth harmonic according to the equation, y(x, t) = (0.01 m) sin [(628 s^(-1))t] . Assuming pi = 3.14 , the correct statement(s) is (are) :

A horizontal stretched string, fixed at two ends, is vibrating in its fifth harmonic according to the equation, t(x, t) = (0.01m) sin[(62.8m^(-1))t] . Assuming pi = 3.14 , the correct statement (s) is (are)

the equation for the vibration of a string fixed both ends vibration in its third harmonic is given by y = 2 cm sin [(0.6cm ^(-1))xx ] cos [(500 ps^(-1)t]

A wave is represented by the equation y=(0.001mm)sin[(50s^-10t+(2.0m^-1)x]

The equation for the vibration of a string fixed at both ends vibrating in its third harmonic is given by y=2cm sin[(0.6cm^-1)x]cos[(500pis^-1)t] . The length of the string is

The equation for the vibration of a string, fixed at both ends vibrating in its third harmonic, is given by y = (0.4 cm) sin[(0.314 cm^-1) x] cos[f(600pis^-1)t] .(a) What is the frequency of vibration ? (b) What are the positions of the nodes ? (c) What is the length of the string ? (d) What is the wavelength and the speed of two travelling waves that can interfere to give this vibration ?

The equation for the vibration of a string fixed at both ends vibrating in its second harmonic is given by y=2sin(0.3cm^(-1))xcos((500pis^(-1))t)cm . The length of the string is :

Use the wave equation to find the speed of a wave given by y(x,t) =(3.00 mm) sin [(3.00 m^(-1)) x-(8.00 s^(-1))t]) .

A string is clamped at both the ends and it is vibrating in its 4^(th) harmonic. The equation of the stationary wave is Y=0.3 sin ( 0.157 x) cos (200 pi t) . The length of the string is: (All quantities are in SI units.)

The linear density of a string is 1.9 xx 10^(-4)"kg/m." A transverse wave on the string is described by the equation y=(0.021 m) sin[(2.0 m^(-1))x +(30 s^(-1))t]. What are (a) the wave speed and (b) the tension in the string?