19. The graph shown in the figure is the position-versus-time curve for a mass on a spring:t (s)73What is its frequency (in Hz)?20. Suppose you determine the spring constant of a spring by attaching a 250-g mass to it and letting it bounce on the end of thespring. You find 20 oscillations take a time of 30.4 seconds. What is the spring constant (in N/m) of this spring?

Answered: 19. The graph shown in the figure is…

19. The graph shown in the figure is the position-versus-time curve for a mass on a spring: 3 5 7 What is its frequency (in Hz)?

College Physics

10th Edition

ISBN:9781285737027

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter14: Sound

Section: Chapter Questions

Problem 53P: A cars 30.0-kg front tire is suspended by a spring with spring constant k = 1.00 105 N/m. At what...

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Concept explainers

Properties of sound

A sound wave is a mechanical wave (or mechanical vibration) that transit through media such as gas (air), liquid (water), and solid (wood).

Quality Of Sound

A sound or a sound wave is defined as the energy produced due to the vibrations of particles in a medium. When any medium produces a disturbance or vibrations, it causes a movement in the air particles which produces sound waves. Molecules in the air vibrate about a certain average position and create compressions and rarefactions. This is called pitch which is defined as the frequency of sound. The frequency is defined as the number of oscillations in pressure per second.

Categories of Sound Wave

People perceive sound in different ways, like a medico student takes sound as vibration produced by objects reaching the human eardrum. A physicist perceives sound as vibration produced by an object, which produces disturbances in nearby air molecules that travel further. Both of them describe it as vibration generated by an object, the difference is one talks about how it is received and other deals with how it travels and propagates across various mediums.

Question

19. The graph shown in the figure is the position-versus-time curve for a mass on a spring:
t (s)
7
3
What is its frequency (in Hz)?
20. Suppose you determine the spring constant of a spring by attaching a 250-g mass to it and letting it bounce on the end of the
spring. You find 20 oscillations take a time of 30.4 seconds. What is the spring constant (in N/m) of this spring?

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