A wave is described by equation y = (1...

A wave is described by equation
`y = (1.0 mm) sin pi ((x)/(2.0 cm) - (t)/(0.01 s))`
(a) Find the time period and the wavelength.
(b) Write the equation for the velocity of the particle. Find the speed of the particle at `x = 1.0 cm` at time `t = 0.01 s`.
(d) What are the speeds of the particles at `x = 1.0 cm` at `t = 0.011, 0.012 and 0.013 s`?

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The correct Answer is:

A, B, C, D

`Y = (1mm) sin pi[(x)/(2) cm -(t)/(0.01)sec]` (a) `T = 2xx0.01 = 0.2 sec = 20 ms`
`lambda= 2xx2= 4 cm`
(b) `upsilon = (dy)/(dt) = (d)/(dt) [sin2pi((x)/(4) -(t)/(0.02))]`
`=-cos 2pi {((x)/(4)) - ((t)/(0.02))} xx (1)/(0.02)`
`rArr v = -50 cos 2pi {((X)/(4)) - ((t)/(0.02))}`
at x = 1 and t = 0.01 sec,
`upsilon = -50 cos 2pi{(1)/(4) - (1)/(2)} = 0`
(c ) (i) at x = 3cm, t = 0.01 sec,
`u = - 50 cos 2pi{(3)/(4) - (1)/(2)} = 0`
(ii) `at x = 5cm, t = 0.01 sec,`
`upsilon = 0 (putting the values)`
at x = 7 cm, t =0.1 sec,
`upsilon = 0`
at x = 1cm, t = -0.011 sec,
`upsilon = 50 cos ((3pi)/(5)) = - 9.7 cm//sec`
(similarly the other two can be calculated).

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