1) What are the frequencies and the amplitudes of these waves?- F sound-wave #1: __Type here__ Hz Amplitude: __Type here__ Volts- F sound-wave #2: __Type here__ Hz Amplitude: __Type here__ Volts- F sound-wave #3: __Type here__ Hz Amplitude: __Type here__ Volts The image contains three graphs depicting sound waves, labeled as Sound wave #1, Sound wave #2, and Sound wave #3. Each graph shows a sine wave, representing sound intensity over time in seconds.**Graph Descriptions:**1. **Sound wave #1:** - This graph displays a single complete wave cycle over the time span of 0.01 seconds. - The wave reaches a peak intensity of approximately +10 and a trough of -10. - The wave has a lower frequency compared to the other waves.2. **Sound wave #2:** - This graph shows two complete wave cycles within the same 0.01-second interval. - The intensity peaks and troughs are the same, with a range from +10 to -10. - It exhibits a higher frequency than Sound wave #1.3. **Sound wave #3:** - This graph illustrates four complete wave cycles over 0.01 seconds. - The intensity also varies from +10 to -10, consistent across all three graphs. - It has the highest frequency among the sound waves represented.**Summary:**- All waves have the same amplitude, but their frequencies differ. Sound wave #3 has the highest frequency, followed by Sound wave #2, and Sound wave #1 has the lowest frequency. Higher frequencies correspond to more cycles over the same time period, resulting in higher-pitched sounds.

Frequency is the number of times a wave repeats itself per unit time. Frequency = 1/ T T = time…

1) What are the frequencies and the amplitudes of these waves? F sound-wave #1: _Type here_ Hz Amplitude: _Type here Volts F sound-wave #2: _Type here Hz Amplitude: _Type hereVolts F sound-wave #3: _Type here Hz Amplitude: _Type hereVolts

1) What are the frequencies and the amplitudes of these waves? F sound-wave #1: _Type here_ Hz Amplitude: _Type here Volts F sound-wave #2: _Type here Hz Amplitude: _Type hereVolts F sound-wave #3: _Type here Hz Amplitude: _Type hereVolts

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Related questions

Q: Consider a wave described by the wave function y (x,t) = 0.85m sin (- -m 2 s-1 t + -), find the…

Q: A 2.0 kg mass is attached to a string as shown. The mass/length of the string is 5.00 g/m. Determine…

Q: A golf ball is struck with an initial velocity of 10m/s at an angle of 30 degrees above the…

A: We know that as there is no acceleration in horizontal direction, the component of velocity in…

Q: In a transverse wave, crest is a point on the wave where the ______________________.

A: A transverse wave contains both crests and troughs.

Q: A stereo speaker produces a pure "G" tone, with a frequency of 392 Hz. What is the period T of the…

Q: wave can be considered as being composed of 7. A complex traveling a) a number of sinusoidal…

A: For ques 8:Two different frequencies 230 Hz and 233 Hz.

Q: A string is stretched taut and tied between two fixed ends 0.22 m apart. The string is made to…

A: Given Both fixed ends are 0.22 m apart Wave form at 110 Hz

Q: A taut string for which 0.054 kg/m is under a tension of 80 N. We want to generate sinusoidal waves…

A: The wave speed in string is calculated by using the formula v=Tμ , where T=80 N is the tension force…

Q: Question: A transverse wave travels 8.99 m to the right in 3.26 s. As it passes an element of the…

A: To find the speed of the wave, we can use the formula:Speed (v) = Distance (d) / Time (t)where,…

Q: 4-A mosquito's wings are emitted a frequency of 1000 Hz if the mosquito flies toward a stationary…

Q: Wave is given by: y= 9.0 sin (1.0x - 7.0t) cm he velocity of this wave in cm/s with two decimal…

Q: A whistle produces sound of frequency of 1.00 kHz. If a listener moves with a speed of 30 m/s away…

Q: Intensity of sound = (10] ^(-6) W/m^2, measured the intensity level? if the sound inaudible or…

Q: Given data : Wave speed 160 m/s Frequency 320 Hz Determine the wavelength II

A: Given data : Wave speed = v Frequency = f…

Q: In a sinusoidal wave, the time required for a particular point to move fror maximum displacement to…

A: Answer is frequency = 2.34Hz

Q: The displacement of a vibrating string versus position along the string is shown in the figure. The…

A: Introduction:- Given Information:- Speed of the wave v = 10.0 cm/s…

Q: All waves require material for propagation. True or False? a) True b) False

A: To state: whether all the waves require material for propagation.

Q: (1-2) Using a tuning fork, the resonance pattern shown is produced in a glass tube which is closed…

A: Given : (Note : This is a multiple type of question. So answer for the first part is given below.…

Q: Two identical sinusoidal waves with wavelengths of 1.5 m travel in the same direction at a speed of…

A: Wavelength of each wave λ=1.5 m Speed of each wave v=25 m/s Amplitude of the resultant wave R=3A

Q: Transverse waves on a string have wave speed of 8.00 m/s, amplitude of 0.0700 m, and wavelength of…

A: We know thatf=vλWherev=speed of the waveλ=wavelength of the wavef=frequency of the wave

Q: With the propagation of a longitudinal wave through a material medium, the quantities transmitted in…

A: The wave given is longitudinal in nature

Q: For the lowest harmonic of pipe with two open ends,how much of a wavelength fits into the pipe's…

A: The question is asking for the length of the wavelength that fits into a pipe with two open ends at…

Q: A traveling wave is represented by the function: y(x, t) = 0.010 m sin (1.5 m x - 3.0 s t) Find the…

Q: Goodevening Maam/Sir, I hope you can help me with this problem. Thank you! Topic: Sound and Hearing…

A: Given: The temperature of the room is T=30o C=273+30=303 K. The acoustic power of A=8×10-4 W. The…

Q: es A 4 The graph below shows changes in what an air pressure sensor reads as a sound wave arrives…

A: Solution: Sound wave is longitudinal wave in nature in which the displacement of particles is along…

Q: Wavelength No. of Cycles Frequency f Wave Speed v Harmonic String Length L (m) Must be in decimal…

A: Given : Harmonic No. n String Length (L) in m 3 4 4 4…

Q: What is the length (in cm) of a pendulum that has a period of 0.891 s? 1.97 cm What is the period…

Q: A sinusoidal wave is travelling along a cord. The wave makes 50.0 vibration in 40.0 s. The crest of…

Q: Use the wave equation to find the speed of a wave given by ylx, t) = (2.08 mm)[(22 m²)x- (4.0…

Q: A wave described by the equation v(x.t) =0.08sin(x-3nt) is emitted from a nearby source. Calculate…

A: Given data: The wave equation y(x, t) = 0.08sin(x - 3πt) Required: The period of the wave

Q: sin α2 C2 sin α1 C1

A: To solve this problem, we can use Snell's Law, which states that the ratio of the sine of the angle…

Q: Two progressive waves yi A sin (x – ot) and y2 A sin(x - x – wt – ) travel in the same direction.…

Q: You are given the wave y(z,t)= -5cos(3x+2t) where all quantities are in SI. This wave propagates to…

Q: Wave Boundary Medium 1 Medium 2 The speed of the reflected pulse will be incident pulse. the speed…

A: From the figure we get to see that a wave is travelling through a wire from less dense end to more…

Q: For the lowest harmonic of pipe with one open end and one closed end,how much of a wavelength fits…

A: The question is asking for the length of the wavelength that fits into a pipe with one open end and…

Q: Two waves of the same frequency have amplitudes 0.838 and 2.60. They interfere at a point where…

Q: A student wants to establish a standing wave on a wire 2 m long clamped at both ends. If the wave…

A: The minimum frequency of fundamental mode (fmin ) of a standing wave on a string tied at both ends…

Q: Two waves of amplitude 0.3 m and 0.5 m interfere constructively. The resultant intensity is…

A: Given data- First Amplitude a1=0.3 m Second Amplitude a2=0.5 m We have to find the resultant…

Q: Two waves are simultaneously passing through a string and their equations are : y₁ = A₁ sin k(x−vt),…

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

1) What are the frequencies and the amplitudes of these waves?

- F sound-wave #1: __Type here__ Hz    Amplitude: __Type here__ Volts

- F sound-wave #2: __Type here__ Hz    Amplitude: __Type here__ Volts

- F sound-wave #3: __Type here__ Hz    Amplitude: __Type here__ Volts

The image contains three graphs depicting sound waves, labeled as Sound wave #1, Sound wave #2, and Sound wave #3. Each graph shows a sine wave, representing sound intensity over time in seconds.

**Graph Descriptions:**

1. **Sound wave #1:**
- This graph displays a single complete wave cycle over the time span of 0.01 seconds.
- The wave reaches a peak intensity of approximately +10 and a trough of -10.
- The wave has a lower frequency compared to the other waves.

2. **Sound wave #2:**
- This graph shows two complete wave cycles within the same 0.01-second interval.
- The intensity peaks and troughs are the same, with a range from +10 to -10.
- It exhibits a higher frequency than Sound wave #1.

3. **Sound wave #3:**
- This graph illustrates four complete wave cycles over 0.01 seconds.
- The intensity also varies from +10 to -10, consistent across all three graphs.
- It has the highest frequency among the sound waves represented.

**Summary:**
- All waves have the same amplitude, but their frequencies differ. Sound wave #3 has the highest frequency, followed by Sound wave #2, and Sound wave #1 has the lowest frequency. Higher frequencies correspond to more cycles over the same time period, resulting in higher-pitched sounds.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.

Similar questions

Given data: Wave speed 60 m/s Frequency 230 Hz Determine the wavelength II
The wave speed on a string is 775 m/s periodic waves are generated on that string by an oscillator with a period of 1.55 x 10^-4 seconds. A) What is the wavelength of these periodic waves on the string? B) At what frequency should the oscillator vibrate so that the wavelength is 28.0 cm?
Organ pipe Y with an open end in both ends is twice as long as organ pipe X with an open end in one side.What is the ratio of the frequencies between that of organ pipe X and organ pipe Y: A)1:1 B)1:2 C)2:1 D)1:4 E)4:1
Two waves of the same frequency have amplitudes 0.841 and 1.64. They interfere at a point where their phase difference is 47.0°. What is the resultant amplitude? Number Units eTextbook and Media
The peniodic wove below has a speed of 3.0 x 10º m/s. wal 6.0 m 5. What is the frequency of the wave? A) 5.0 x 107 Hz B) 1.8 x 10° Hz C 20 x 105 Hz D) 1.0 x 108 Hz
A periodic transverse wave is created by shaking one end of a string side to sideperiodically. Thirty oscillations are completed in 6.0 seconds. It is observed thatthe waveform repeats every 0.48 m. Determine/Calculate the following: a. Frequency of the wave; b. Period of the wave; c. Speed of the wave
Consider a wave described by the wave function 5T y (x,t)= 0.50m sin (-m 9T -1 t + 10 - 3 4 , find the frequency of wave? а. 0.89 Hz b. 1.125 Hz С. 1.35 Hz d. 1.2 Hz
1
Can you please help me find the frequencies and amplitudes? Thank you!
QUESTION 5 A transverse wave completes 12 full oscillations in two seconds. The wave moves at 31.2 m/s. Find the distance between two adjacent crests on the wave (in m). QUESTION 6 The linear density of a guitar string is 8.0 x 104 kg/m. A wave on the string has a frequency of 400 Hz and a wavelength of 60 cm. What is the tension in the string? QUESTION 7 The mathematical expression of a wave is given by y = 4.2 m Sin ( 1.2 rad/m x – 9.6 rad/s t). What is the speed of the wave (in m/s)? QUESTION 8 What is the sound intensity (in µW/m2) at 1.86 m from a 4 mW loudspeaker emitting sound uniformly in all directions?
What is the speed of the wave shown in the figure if the wavelength is 3.0 m? y (m) r(s) 14- It cannot be determined from the given information. O 4.0 m/s O 6.0 m/s 1.5 m/s O 3.0 m/s