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University Physics with Modern Physics

Hugh D. Young, Roger A. Freedman

Physics

14th edition Edition · 1596 pages

ISBN: 9780321973610

Chapter 2: Q10DQ (page 496)

A sinusoidal wave can be described by a cosine function, which is negative just as often as positive. So why isn’t the average power delivered by this wave zero?

Short Answer

Expert verified

The average power remains positive.

Step by step solution

01

Concept of Power of the wave

The power of a mechanical wave is equal to the square of the amplitude and the square of the frequency of the wave.

02

The power of the wave expression is given as:

$P (x, t) = F (x, t) . v (x, t) = KAsin (kx - ωt) . ωAsin (kx - ωt) = {KωA}^{2} \sin^{2} (kx - ωt)$

Here, is the power, P is the power, F is the force, v is the velocity, x is the displacement, and t is the time, k is the spring constant, is the force constant, A is the amplitude, $ω$ is the angular frequency.

The power is the square of the cosine function. So whole part of the function remains positive all time. So, the power also remains positive.

Thus, the average power remains positive.

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Most popular questions from this chapter

In most modern wind instruments the pitch is changed by

using keys or valves to change the length of the vibrating air column.

The bugle, however, has no valves or keys, yet it can play many notes. How might this be possible? Are there restrictions on what notes a bugle can play?

A bat flies toward a wall, emitting a steady sound of frequency 1.70 kHz. This bat hears its own sound plus the sound reflected by the wall. How fast should the bat fly in order to hear a beat frequency of 8.00 Hz?

In Example $16.18$ (Section $16.8$ ), suppose the police car is moving away from the warehouse at $20 m / s$ . What frequency does the driver of the police car hear reflected from the warehouse?

Because the speed of ultrasound in bone is about twice the speed in soft tissue, the distance to a structure that lies beyond a bone can be measured incorrectly. If a beam passes through $4 c m$ of tissue, then $2 c m$ of bone, and then another $1 c m$ of tissue before echoing off a cyst and returning to the transducer, what is the difference between the true distance to the cyst and the distance that is measured by assuming the speed is always $1540 m / s$ ? Compared with the measured distance, the structure is actually

(a) $1 c m$ farther

(b) $2 c m$ farther

(c) $1 c m$ closer

(d) $2 c m$ closer

What is the purpose of the frets on a guitar? In terms of the frequency of the vibration of the strings, explain their use.

See all solutions

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