If at t = 0, a travelling wave pulse in ...

If at `t = 0`, a travelling wave pulse in a string is described by the function,
`y = (10)/((x^(2) + 2 ))`
Hence, `x and y` are in meter and `t` in second. What will be the wave function representing the pulse at time `t`, if the pulse is propagating along positive x-axis with speed `2 m//s`?

`y = (10)/((x^2 + 2y)^2 + 2)`

`y = (10)/((x^2 + 2t)^2 + 2)`

`y = (10)/((x - 2t)^2 + 2)`

` y = (10)/((x + 2t)^2 + 2t)`

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If at `t = 0`, a travelling wave pulse in a string is described by the function, `y = (10)/((x^(2) + 2 ))` Hence, `x and y` are in meter and `t` in second. What will be the wave function representing the pulse at time `t`, if the pulse is propagating along positive x-axis with speed `2 m//s`?

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AAKASH SERIES-WAVE MOTION-PRACTICE SET (EXERCISE-I (LEVEL-II(ADVANCED)STRAIGHT OBJECTIVE TYPE QUESTIONS))

If at `t = 0`, a travelling wave pulse in a string is described by the function,
`y = (10)/((x^(2) + 2 ))`
Hence, `x and y` are in meter and `t` in second. What will be the wave function representing the pulse at time `t`, if the pulse is propagating along positive x-axis with speed `2 m//s`?