Question

the relationship of wavespeed
v wavelength u and frequency n is given by
:​

Answer 1

Hlo mate here is ur ans....

In the chapter on motion in two dimensions, we defined the following variables to describe harmonic motion:

In the chapter on motion in two dimensions, we defined the following variables to describe harmonic motion:amplitude: maximum displacement from the equilibrium position of an object oscillating around such equilibrium position

In the chapter on motion in two dimensions, we defined the following variables to describe harmonic motion:amplitude: maximum displacement from the equilibrium position of an object oscillating around such equilibrium positionfrequency: number of events per unit of time

In the chapter on motion in two dimensions, we defined the following variables to describe harmonic motion:amplitude: maximum displacement from the equilibrium position of an object oscillating around such equilibrium positionfrequency: number of events per unit of timeperiod: time it takes to complete one oscillation

In the chapter on motion in two dimensions, we defined the following variables to describe harmonic motion:amplitude: maximum displacement from the equilibrium position of an object oscillating around such equilibrium positionfrequency: number of events per unit of timeperiod: time it takes to complete one oscillationFor waves, these variables have the same basic meaning. However, it is helpful to word the definitions in a more specific way that applies directly to waves.

In the chapter on motion in two dimensions, we defined the following variables to describe harmonic motion:amplitude: maximum displacement from the equilibrium position of an object oscillating around such equilibrium positionfrequency: number of events per unit of timeperiod: time it takes to complete one oscillationFor waves, these variables have the same basic meaning. However, it is helpful to word the definitions in a more specific way that applies directly to waves.amplitude: distance between the resting position and the maximum displacement of the wave

In the chapter on motion in two dimensions, we defined the following variables to describe harmonic motion:amplitude: maximum displacement from the equilibrium position of an object oscillating around such equilibrium positionfrequency: number of events per unit of timeperiod: time it takes to complete one oscillationFor waves, these variables have the same basic meaning. However, it is helpful to word the definitions in a more specific way that applies directly to waves.amplitude: distance between the resting position and the maximum displacement of the wavefrequency: number of waves passing by a specific point per second

In the chapter on motion in two dimensions, we defined the following variables to describe harmonic motion:amplitude: maximum displacement from the equilibrium position of an object oscillating around such equilibrium positionfrequency: number of events per unit of timeperiod: time it takes to complete one oscillationFor waves, these variables have the same basic meaning. However, it is helpful to word the definitions in a more specific way that applies directly to waves.amplitude: distance between the resting position and the maximum displacement of the wavefrequency: number of waves passing by a specific point per secondperiod: time it takes for one wave cycle to complete

In the chapter on motion in two dimensions, we defined the following variables to describe harmonic motion:amplitude: maximum displacement from the equilibrium position of an object oscillating around such equilibrium positionfrequency: number of events per unit of timeperiod: time it takes to complete one oscillationFor waves, these variables have the same basic meaning. However, it is helpful to word the definitions in a more specific way that applies directly to waves.amplitude: distance between the resting position and the maximum displacement of the wavefrequency: number of waves passing by a specific point per secondperiod: time it takes for one wave cycle to completeIn addition to amplitude, frequency, and period, their wavelength and wave velocity also characterize waves. The wavelength λ is the distance between adjacent identical parts of a wave, parallel to the direction of propagation. The wave velocity vw is the speed at which the disturbance moves....

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