The equation of a stationary wave is `y=4sin (pi x/5) Cos(100 pi t)` .The wave is formed using a string of length 20cm. The `2^( nd) and 3^( rd` antinodes are located at positions (in cm )

The equation of a stationary wave is y= 4 sin ((pix)/(5)) cos (100pi t) . The wave is formed using a string of length 20cm. The second and 3rd antipodes are located at positions (in cm)

The equation of a stationary wave is y = 0.8 cos ((pi x)/(20)) sin 200 pi t where x is in cm and t is in s. The separation between consecutive nodes will be

The equation of a stationary wave is y = 0.8 cos ((pi x)/(20)) sin 200 pi t where x is in cm and t is in s. The separation between consecutive nodes will be

The paritcle displacement (in cm) in a stationary wave is given by y(x,t)=2sin(0.1pix)cos(100pit) . The distance between a node and the next antinode is

For the stationary wave y=4sin((pix)/(15))cos(96pit) , the distance between a node and the next antinode is

The equation of a stationary a stationary wave is represented by y=4sin((pi)/(6)x)(cos20pit) when x and y are in cm and t is in second. Wavelength of the component waves is

The equation of a wave is y=4 sin[(pi)/(2)(2t+(1)/(8)x)] where y and x are in centimeres and t is in seconds.

The equation of a wave is represented by y=10^-4sin[100t-(x)/(10)] . The velocity of the wave will be

A stationary wave is given by y = 5 sin (pi x)/(3) cos 40 pi t where x and y are in cm and t is in seconds What is the velocity of a particle of the string at the position x = 1.5 cm when t = 9/8 s

A stationary wave is given by y = 5 sin (pi x)/(3) cos 40 pi t where x and y are in cm and t is in seconds What is the distance between two successive nodes