PHYSICS F/ SCI +ENGRS W/ WEBASSIGN ACCES
PHYSICS F/ SCI +ENGRS W/ WEBASSIGN ACCES
10th Edition
ISBN: 9781337888509
Author: SERWAY
Publisher: CENGAGE L
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Chapter 16, Problem 53AP

Review. A 150-g glider moves at v1 = 2.30 m/s on an air track toward an originally stationary 200-g glider as shown in Figure P16.53. The gliders undergo a completely inelastic collision and latch together over a time interval of 7.00 ms. A student suggests roughly half the decrease in mechanical energy of the two-glider system is transferred to the environment by sound. Is this suggestion reasonable? To evaluate the idea, find the implied sound level at a position 0.800 m from the gliders. If the student’s idea is unreasonable, suggest a better idea.

Figure P16 53

Chapter 16, Problem 53AP, Review. A 150-g glider moves at v1 = 2.30 m/s on an air track toward an originally stationary 200-g

Expert Solution & Answer
Check Mark
To determine

The idea and find the implied sound level at the position 0.800m from the gliders. If the student’s idea is unreasonable then suggest better idea.

Answer to Problem 53AP

It is unreasonable, implying a sound level 123dB. Almost all of the mechanical energy is transformed into internal energy.

Explanation of Solution

The mass of first glider is 150.0g, the mass of the second glider is 200.0g, the latched time interval is 7.00ms, the position of the sound level from the glider is 0.800m and the speed of the first glider system is 2.30m/s.

The glider stick together and moved with final speed momentum conservation for the two sliders system.

Formula to calculate the momentum of the two glider systems before collision is,

    P1=m1v1+m2v2

Here, P1 is the momentum of the two glider systems before collision, m1 is the mass of the first glider, m2 is the mass of the second glider, v1 is the speed of the first glider and v2 is the second glider.

The velocity of the second slider systemis zero after collision so, formula to calculte the momentum of the two glider systems after collision is,

    P2=m1v1

Here, P2 is the momentum of the two glider systems after collision.

From momentum conservation system, the momentum of the two sliders system before collision and after collision is equal.

    P1=P2        (1)

Substitute m1v1+m2v2 for P1 and m1v1 for P2 in equation (1).

    m1v1+m2v2=m1v1        (2)

Since, the velocities of the two sliders systems are equal before collision. Hence, the equation (2) can be written as,

    m1v1+m2v2=m1v1(m1+m2)v=m1v1v=m1v1(m1+m2)        (3)

Substitute 150.0g for m1, 200.0g for m2 and 2.30m/s for v1 in equation (3) to find the v.

    v=(150.0g(103kg1kg))2.30m/s(150.0g(103kg1kg)+150.0g(103kg1kg))=0.986m/s

Formula to calculate the missing kinetic energy is,

    E=12m1v1212(m1+m2)v2        (4)

Substitute 150.0g for m1, 200.0g for m2 and 0.986m/s for v in equation (4) to find E.

    E=12150.0g(103kg1kg)v1212(150.0g(103kg1kg)+200.0g(103kg1kg))(0.986m/s)2=0.277J

Imagine that one half of 0.277J goes into the internal energy and half into sound radiated isotropically in 7.00ms and its intensity is 0.800m away.

Formula to calculate the intensity is,

    I=EAt        (5)

Here, E is the missing kinetic energy and t is the latched time interval.

Formula to calculate the area of the area of the cross section is,

    A=4πr2

Here, r is the position of the sound level from the glider and A is the cross section area of the glider.

Substitute 4πr2  for A in equation (5).

    I=E4πr2t        (6)

Substitute 7.00ms for t, 0.277J for E and 0.800m for r in equation (6) to find the I.

    I=0.277J4π(0.800m)2(7.00ms(103s1ms))=2.01W/m2

Formula to calculate the intensity level is,

    β=10dBlog(II1)        (7)

Here, I1(1×1012W/m2) is the threshold intensity of hearing, I is the intensity of the sound and β is the intensity level.

Substitute 2.01W/m2 for I and 1×1012W/m2 for I1 to find the β.

    β=10dBlog(2.01W/m21×1012W/m2)=123dB

It is unreasonable, implying a sound level 123dB. Nearly all of the decreases in the mechanical energy becomes internal energy in the latch

Conclusion:

Therefore, it is unreasonable, implying a sound level 123dB. Almost all of the mechanical energy is transformed into internal energy.

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Chapter 16 Solutions

PHYSICS F/ SCI +ENGRS W/ WEBASSIGN ACCES

Ch. 16.9 - An airplane flying with a constant velocity moves...Ch. 16 - A seismographic station receives S and P waves...Ch. 16 - Two points A and B on the surface of the Earth are...Ch. 16 - You are working for a plumber who is laying very...Ch. 16 - You are working on a senior project and are...Ch. 16 - When a particular wire is vibrating with a...Ch. 16 - (a) Plot y versus t at x = 0 for a sinusoidal wave...Ch. 16 - Consider the sinusoidal wave of Example 16.2 with...Ch. 16 - A sinusoidal wave traveling in the negative x...Ch. 16 - (a) Write the expression for y as a function of x...Ch. 16 - Review. The elastic limit of a steel wire is 2.70 ...Ch. 16 - Transverse waves travel with a speed of 20.0 m/s...Ch. 16 - Why is the following situation impossible? An...Ch. 16 - Tension is maintained in a string as in Figure...Ch. 16 - Prob. 14PCh. 16 - Transverse waves are being generated on a rope...Ch. 16 - In a region far from the epicenter of an...Ch. 16 - A long string carries a wave; a 6.00-m segment of...Ch. 16 - A two-dimensional water wave spreads in circular...Ch. 16 - A horizontal string can transmit a maximum power...Ch. 16 - Prob. 20PCh. 16 - Show that the wave function y = eb(x vt) is a...Ch. 16 - Prob. 22PCh. 16 - A sinusoidal sound wave moves through a medium and...Ch. 16 - Earthquakes at fault lines in the Earths crust...Ch. 16 - An experimenter wishes to generate in air a sound...Ch. 16 - A sound wave propagates in air at 27C with...Ch. 16 - Prob. 27PCh. 16 - A rescue plane flies horizontally at a constant...Ch. 16 - The speed of sound in air (in meters per second)...Ch. 16 - A sound wave moves down a cylinder as in Figure...Ch. 16 - The intensity of a sound wave at a fixed distance...Ch. 16 - The intensity of a sound wave at a fixed distance...Ch. 16 - The power output of a certain public-address...Ch. 16 - A fireworks rocket explodes at a height of 100 m...Ch. 16 - You are working at an open-air amphitheater, where...Ch. 16 - Why is the following situation impossible? It is...Ch. 16 - Show that the difference between decibel levels 1...Ch. 16 - Submarine A travels horizontally at 11.0 m/s...Ch. 16 - Prob. 39PCh. 16 - Why is the following situation impossible? At the...Ch. 16 - Review. A block with a speaker bolted to it is...Ch. 16 - Review. A block with a speaker bolted to it is...Ch. 16 - A sinusoidal wave in a rope is described by the...Ch. 16 - The wave is a particular type of pulse that can...Ch. 16 - Some studies suggest that the upper frequency...Ch. 16 - An undersea earthquake or a landslide can produce...Ch. 16 - A sinusoidal wave in a string is described by the...Ch. 16 - A rope of total mass m and length L is suspended...Ch. 16 - A wire of density is tapered so that its...Ch. 16 - Prob. 50APCh. 16 - Prob. 51APCh. 16 - A train whistle (f = 400 Hz) sounds higher or...Ch. 16 - Review. A 150-g glider moves at v1 = 2.30 m/s on...Ch. 16 - Consider the following wave function in SI units:...Ch. 16 - Prob. 55APCh. 16 - Prob. 56APCh. 16 - A string on a musical instrument is held under...Ch. 16 - Assume an object of mass M is suspended from the...Ch. 16 - Equation 16.40 states that at distance r away from...Ch. 16 - In Section 16.7, we derived the speed of sound in...
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