EBK WEBASSIGN FOR KATZ'S PHYSICS FOR SC
EBK WEBASSIGN FOR KATZ'S PHYSICS FOR SC
1st Edition
ISBN: 9781337684668
Author: Katz
Publisher: VST
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Chapter 17, Problem 75PQ

(a)

To determine

The time interval between the first and second times of the element.

(a)

Expert Solution
Check Mark

Answer to Problem 75PQ

The time interval between the first and second times of the element is 5.78×102s.

Explanation of Solution

The equation for the transverse wave on a string is,

  y(x,t)=ymaxsin(kx+ωt)                                                                              (I)

Here, ymax is the maximum displacement, k is the wave number, y and x is the position of the wave, t is the time period, and ω is the angular velocity.

The wave function of the transverse wave on a string is,

  y(x,t)=(0.400m)sin[4.00x+25.0t]                                                           (II)

Rearrange the equation (II) by substituting 0.100m for x and 0.300m for y.

  0.300m=(0.400m)sin[4.00(0.1)+(25.0rad/s)t]0.750=sin[4.00(0.1)+(25.0rad/s)t]

The smallest two angles for which the sine function is 0.75 are 48.6°=0.8481rad and 180°48.6°=131.4° is 2.2935rad so set the expression inside the bracket to 0.8481rad and 2.2935rad to solve for the time at which each occurs.

  [0.400rad+(25.0rad/s)t]=0.8481rad(25.0rad/s)t=0.8481rad0.400radt=1.79×102s

  [0.400rad+(25.0rad/s)t]=2.2935rad(25.0rad/s)t=2.2935rad0.400radt=7.57×102s

Write the expression for time difference of the element.

  Δt=t2t1                                                                                                          (IV)

Here, t1 and t2 is the first and second time of the element and Δt is the time difference of the element.

Conclusion:

Substitute 7.57×102s for t2 and 1.79×102s for t1 in equation (IV) to find Δt.

  Δt=7.57×1021.79×102s=5.78×102s

Therefore, the time interval between the first and second times of the element is 5.78×102s.

(b)

To determine

The distance covered by the wave during time interval found in part (a).

(b)

Expert Solution
Check Mark

Answer to Problem 75PQ

The distance covered by the wave is 0.361m.

Explanation of Solution

Write the expression for wave travels one wavelength in one period.

  d=vΔt                                                                                                            (V)

Here, d is the distance covered by the wave and v is the speed of the wave.

Write the relation between wavelength and time period.

  v=λT                                                                                                             (VI)

Here, λ is the wavelength of the wave.

Write the expression for wave speed.

  v=ωk                                                                                                            (VII)

Here, ω is the angular frequency and k is the wave number.

Substitute equation (VII) in the equation (V).

  d=(ωk)Δt                                                                                                   (VIII)

Conclusion:

Substitute 25.0rad/s for ω, 4.00rad/m for k, and 5.78×102s for Δt in equation (VIII) to find d.

  d=(25.0rad/s4.00rad/m)5.78×102s=36.13×102m0.361m

Therefore, the distance covered by the wave is 0.361m.

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Chapter 17 Solutions

EBK WEBASSIGN FOR KATZ'S PHYSICS FOR SC

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