a) Using the diagram below, determine the wavelength and amplitude of the sound wave below. b) If the wave speed was given as v = 340 m/s, what is the frequency (Hz) of this wave? c) Is the frequency in the audible range? Title: Understanding WaveformsDescription:The graph provided illustrates a waveform, which is a common representation in the study of oscillations and waves in physics. The waveform is plotted on the Cartesian coordinate system with the horizontal axis labeled as the x-position (measured in meters, m) and the vertical axis labeled as the y-position (measured in meters, m).Graph Explanation:- The x-axis (horizontal axis) ranges from 0 to 6 meters.- The y-axis (vertical axis) ranges from -2 to 2 meters.Key Points:1. The waveform begins at the origin (0,0).2. The wave reaches its first maximum peak at approximately x = 1.5 meters, where the y-position is 2 meters.3. The waveform crosses back through the x-axis (y = 0) at x = 3 meters.4. The wave reaches its first minimum trough at approximately x = 4.5 meters, where the y-position is -2 meters.5. The wave completes one full cycle and begins another cycle as it returns to the x-axis at x = 6 meters.Understanding this graph is fundamental for students learning about wave phenomena such as light, sound, and other periodic motions. The regular patterns of peaks and troughs (maxima and minima) are characteristic of sinusoidal waves, which are crucial in various scientific and engineering contexts.

(a) From the graph, the wavelength of sound wave is the distance between successive crests or…

a) Using the diagram below, determine the wavelength and amplitude of the sound wave below. b) If the wave speed was given as v = 340 m/s, what is the frequency (Hz) of this wave? c) Is the frequency in the audible range?

a) Using the diagram below, determine the wavelength and amplitude of the sound wave below. b) If the wave speed was given as v = 340 m/s, what is the frequency (Hz) of this wave? c) Is the frequency in the audible range?

Glencoe Physics: Principles and Problems, Student Edition

1st Edition

ISBN:9780078807213

Author:Paul W. Zitzewitz

Publisher:Paul W. Zitzewitz

Chapter1: A Physics Toolkit

Section: Chapter Questions

Problem 72A

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Concept explainers

Wave Motion

A wave motion is defined as the propagation of disturbances or transfer of energy and momentum from the state of rest or equilibrium to another point in a medium without any actual transfer of matter between them. In a simple explanation, it is the propagation of energy through a medium that is produced due to the repeated vibrations of the particles. Common things we see day to day like waves on water oscillation of a pendulum or bell, light wave, and all the subatomic particles exhibiting wavelike properties. The propagation of waves depends on the medium and their properties. The wave function is the disturbance that produces waves as a function of time. This disturbance oscillates periodically with a fixed frequency and wavelength. There are linear wave motion and non-linear wave motion based on their propagation, motion, and time period where linear wave motion is like sinusoidal waves and non-linear wave motion like a wave motion that gets interrupted in the middle of their propagation.

Question

Title: Understanding Waveforms

Description:
The graph provided illustrates a waveform, which is a common representation in the study of oscillations and waves in physics. The waveform is plotted on the Cartesian coordinate system with the horizontal axis labeled as the x-position (measured in meters, m) and the vertical axis labeled as the y-position (measured in meters, m).

Graph Explanation:
- The x-axis (horizontal axis) ranges from 0 to 6 meters.
- The y-axis (vertical axis) ranges from -2 to 2 meters.

Key Points:
1. The waveform begins at the origin (0,0).
2. The wave reaches its first maximum peak at approximately x = 1.5 meters, where the y-position is 2 meters.
3. The waveform crosses back through the x-axis (y = 0) at x = 3 meters.
4. The wave reaches its first minimum trough at approximately x = 4.5 meters, where the y-position is -2 meters.
5. The wave completes one full cycle and begins another cycle as it returns to the x-axis at x = 6 meters.

Understanding this graph is fundamental for students learning about wave phenomena such as light, sound, and other periodic motions. The regular patterns of peaks and troughs (maxima and minima) are characteristic of sinusoidal waves, which are crucial in various scientific and engineering contexts.

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