Physics, asked by sapnapiscool, 1 month ago

the distance traveled by a student between two points is 1.4 times the displacement. if the difference of the distance and displacement is 0.4m, then find the distance and nature of the path.​

Answers

Answered by ITZURADITYAKING
10

Explanation:

In the previous section, we described periodic waves by their characteristics of wavelength, period, amplitude, and wave speed of the wave. Waves can also be described by the motion of the particles of the medium through which the waves move. The position of particles of the medium can be mathematically modeled as wave functions, which can be used to find the position, velocity, and acceleration of the particles of the medium of the wave at any time.

Pulses

A pulse can be described as wave consisting of a single disturbance that moves through the medium with a constant amplitude. The

Answered by IxIitzurshizukaIxI
15

Answer:

The distance traveled by a student between two points is 1.4 times the displacement. if the difference of the distance and displacement is 0.4m, then find the distance and nature of the path

  • Figure 16.8 The pulse at time t=0 is centered on x=0 with amplitude A. The pulse moves as a pattern with a constant shape, with a constant maximum value A. The velocity is constant and the pulse moves a distance Δx=vΔt in a time Δt. The distance traveled is measured with any convenient point on the pulse. In this figure, the crest is used.Consider a string kept at a constant tension FT where one end is fixed and the free end is oscillated between y=+A and y=−A by a mechanical device at a constant frequency. (Figure) shows snapshots of the wave at an interval of an eighth of a period, beginning after one period (t=T).

  • Notice that each select point on the string (marked by colored dots) oscillates up and down in simple harmonic motion, between y=+Ay=+A and y=−A,y=−A, with a period T. The wave on the string is sinusoidal and is translating in the positive x-direction as time progresses.
  • At this point, it is useful to recall from your study of algebra that if f(x) is some function, then f(x−d)f(x−d) is the same function translated in the positive x-direction by a distance d. The function f(x+d)f(x+d) is the same function translated in the negative x-direction by a distance d. We want to define a wave function that will give the y-position of each segment of the string for every position x along the string for every time t.
  • Looking at the first snapshot in (Figure), the y-position of the

between x=0x=0 and x=λx=λ can be modeled as a sine function. This wave propagates down the string one wavelength in one period, as seen in the last snapshot. The wave therefore moves with a constant wave speed of v=λ/T.v=λ/T.

  • Recall that a sine function is a function of the angle θθ, oscillating between +1+1 and −1−1, and repeating every 2π2π radians ((Figure)). However, the y-position of the medium, or the wave function, oscillates between +A+A and −A−A, and repeats
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