College Physics
College Physics
2nd Edition
ISBN: 9780134601823
Author: ETKINA, Eugenia, Planinšič, G. (gorazd), Van Heuvelen, Alan
Publisher: Pearson,
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Chapter 10, Problem 1RQ

Review Question 10.1

Can we say that the period of vibration depends on the frequency or that the frequency depends on the period? Explain your answer.

Expert Solution & Answer
Check Mark
To determine

Whether it is correct to say that the period of a vibration depends on the frequency or conversely, frequency depends on the period.

Answer to Problem 1RQ

Solution:

Frequency depends on the time period.

Explanation of Solution

Introduction:

The time period of a vibrating object is the time interval needed for the object to complete one cycle.

The frequency of the vibrational motion is the number of complete vibrations of the system in one second. The frequency is expressed as,

f=1T

Here, T represents time period.

Explanation:

Frequency is defined as the number of the complete vibrations of a system within one second.

On the other hand, the time period of a motion is defined as the time needed to complete one vibration of the motion.

For example: Consider spring and mass system,

Here time period (T) of oscillation it depends only on mass (m) and stiffness of spring (k) as

T=2πmk

Now frequency and time period are related as

f=1T

According to the above equations, the frequency of a vibrational motion is inversely proportional to the time period, that is, the frequency of a vibrational motion is dependent on the time period.

Conclusion:

Therefore, frequency depends on the time period, and time period depends on the mass and other factors.

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Chapter 10 Solutions

College Physics

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(a)...Ch. 10 - You exert a 100-N pull on the end of a spring....Ch. 10 - Metronome You want to make a metronome for music...Ch. 10 - Determine the frequency of vibration of the cart...Ch. 10 - 16. * A spring with a cart at its end vibrates at...Ch. 10 - 17. A cart with mass m vibrating at the end of a...Ch. 10 - 18. * A 300-g apple is placed on a horizontal...Ch. 10 - ** A 2.0-kg cart vibrates at the end of an 18-N/m...Ch. 10 - * What were the main ideas that we used to derive...Ch. 10 - 21. * A spring with a spring constant of 1200 N/m...Ch. 10 - 22. * A person exerts a 15-N force on a cart...Ch. 10 - 23. A spring with spring constant has a 1.4-kg...Ch. 10 - * Proportional reasoning By what factor must we...Ch. 10 - Proportional reasoning By what factor must we...Ch. 10 - 26. 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EST A graph of position versus time for an...Ch. 10 - Determine the period of a 1.3-m-long pendulum on...Ch. 10 - * You have a simple pendulum that consists of a...Ch. 10 - * Equation Jeopardy The following expression...Ch. 10 - 41. * Trampoline vibration When a 60-kg boy sits...Ch. 10 - * Proportional reasoning if you double the...Ch. 10 - 43. * Pendulum on Mars The frequency of a pendulum...Ch. 10 - 44. * bio EST Annoying sound low-frequency...Ch. 10 - 45.** A 1.2-kg block sliding at 6.0 m/s on a...Ch. 10 - 108 kg. The tower sways back and forth at a...Ch. 10 - ** You shoot a 0.050-kg arrow into a 0.50-kg...Ch. 10 - 48. * You have a pendulum whose length is 1.3 m...Ch. 10 - * You hang a 0.10-kg block from a spring, causing...Ch. 10 - 50. * imagine that you have a cart on a spring...Ch. 10 - 51. Describe one situation from everyday life in...Ch. 10 - EST twins on a swing How frequently do you need to...Ch. 10 - 53. 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