Answered: 2.0 m KEY CONCEPT FIGURE 16.13…

2.0 m KEY CONCEPT FIGURE 16.13 Possible standing-wave modes of a string fixed at both ends. m=1 m=2 m= 3 L L The mode number is equal to the number of antinodes. d1 = 4 = 21. h=L) A3 =4 = 3L f= 3(I.)

Inquiry into Physics

8th Edition

ISBN:9781337515863

Author:Ostdiek

Publisher:Ostdiek

Chapter6: Waves And Sound

Section: Chapter Questions

Problem 1PIP

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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

A 2.0-m-long string carries a standing wave as in the figure at right. Extend the pattern and the formulas as shown to determine the mode number and the wavelength of this particular standing-wave mode.
A. m = 6, λ = 0.67 m B. m = 6, λ = 0.80 m C. m = 5, λ = 0.80 m
D. m = 5, λ = 1.0 m E. m = 4, λ = 0.80 m F. m = 4, λ = 1.0 m

KEY CONCEPT
FIGURE 16.13 Possible standing-wave modes of a string fixed at both ends.
m=1
m=2
m= 3
L
L
The mode
number is
equal to the
number of
antinodes.
d1 = 4 = 21. h=L)
A3 =4 = 3L f= 3(I.)

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