Exersise 21. Diagram 4 shows a displacement-time graph of a wave.simolacement against time graph.olecement of he particle/ cmt/sHime, t/ sCalculate the frequency of the given wave.Diagram 5 shows a displacement-time graph and adisplacement-distance graph respectively for a waterwave.0.5-Dispiacement against distance graphDisplacement of parficle, s/ cm- 0.5 -0.1 0.20.36.4 0.5 0.6 t/ ste sDistance traveled bythe wave, d/ cmx/ cm0.5-0.5 1.0 1.52.0 2.5 3.0 s/ cm- 0.5According to those graphs, determine:1 Sketch displacement-time graph for a wave with:amplitud, A = 5 cmtempoh, T = 0.4 s(a) amplitude(b) Period(c) Frequency(d) wavelengthActivity 6:Frequency, wavelength and speed of wavesSketch a graph of displacement-distance for a wavewith1. Relationship between frequency and wavelengthAmplidtud, A = 10 cmPanjang gelombang, A = 4 cmDiagram 6aDiagram 6bCompare the frequency between Diagram a and127(a)Diagram b.

Answered: Image /qna-images/answer/5870427e-228e-4c0f-8e58-e0cf1d72d61f.jpg

1. Diagram 4 shows a displacement-time graph of a wave. s/m 6. t/s to Calculate the frequency of the given wave. 2. Diagram 5 shows a displacement-time graph and a displacement-distance graph respectively for a water wave. 0.5 0. 0.1 0.2 0.3 6.4 0.5 0.6 - 0.5- 5 tls x/ cm 0.5 0.5 1.0 1.5 2.0 2.5 3.0 si cm -0.5- According to those graphs, determine: (a) amplitude (b) Period (c) Frequency (d) wavelength

1. Diagram 4 shows a displacement-time graph of a wave. s/m 6. t/s to Calculate the frequency of the given wave. 2. Diagram 5 shows a displacement-time graph and a displacement-distance graph respectively for a water wave. 0.5 0. 0.1 0.2 0.3 6.4 0.5 0.6 - 0.5- 5 tls x/ cm 0.5 0.5 1.0 1.5 2.0 2.5 3.0 si cm -0.5- According to those graphs, determine: (a) amplitude (b) Period (c) Frequency (d) wavelength

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: 5. A wave on the ocean travels 11 m is 6.0s. The distance from the wave crest to wave crest is 3.7…

A: Given : d = 11 m t = 6 s λ = 3.7 m

Q: 1. What mathematical relationship exists between the wave speed and the tension of the medium, using…

A: Given, trendline equation , speed = 100x0.5 And x is tension.

Q: You are producing a wave by holding one end of a string and moving your arm up and down. It takes…

A: Given, Time to move arm up and down once = one cycle = time period = T = 1.6 s frequency = f =?

Q: 3. A string has a linear density of 4.00 ×10-³ kg/m and is under a tension of 275 N. The string is…

Q: A 4.00 m rope has a mass of 7.50 g. A tension of 530.0 N is applied to the rope by attaching it to a…

Q: 3. The picture to the right shows a rope oscillating. The person creating this wave is moving her…

A: Given: The amplitude is 0.5 m.

Q: What frequency of sound traveling in air at 34◦ C has a wavelength of 0.55 m? Calculate to one…

A: Given Temperature T=34◦ C Wavelength λ=0.55m

Q: 1 What frequency of sound traveling in air at 40◦ C has a wavelength of 0.35 m? Calculate to one…

A: Temperature of the air is T = 40 C Wave length of the sound is 0.35 m

Q: What is the Intensity of 87 dB in units of W/m ? A. 2.54 x 10^-3 B. 5.01 x 10^-4 C. 1.01 x 10^-6 D.…

Q: What frequency of sound traveling in air at 37◦ C has a wavelength of 0.43 m?

A: Given: wavelength of sound at 37 ◦C, λ = 0.43 m we know, the speed of sound in air at 37 ◦C, v =…

Q: The same wave is represented in the snapshot and history graphs. A. Determine the wavelength and…

A: (a) From the first graph we observe that the difference between two subsequent crests is 2 m, hence…

Q: D) A traveling wave on a string is expressed in the form of the equation y(x, t) = 5 sin(10phi t +…

Q: 5. You hold onto a rope and move your arms up and down at a rate of 2 cycles per second. The rope…

Q: 2) The speed of sound in air is 343 m s. If the frequency of a sound wave is 220 Hz, what is the…

A: Given value--- wave speed = 343 m/s. frequency = 220 Hz. We have to find--- wavelength?

Q: Answer questions 6&7.

A: given frequency of the wave f = 60 hertz we know the relation between time period and frequency…

Q: 15) A sinusoidal wave traveling on a string has an amplitude of 5.0 cm, a period of 0.15 s, and a…

Q: 2) The speed of sound in air is 343 m s. If the frequency of a sound wave is 220 Hz, what is the…

A: We know λ.f=vhereλ is the wavelengthf is the frequency v is the speedSoλ=vf

Q: IXODF The diagram is a "snapshot" of a wave. The frequency of the wave is 110 Hz. Each division in…

A: We can calculate the amplitude by placing centimeter scale on the figure and setting 1 division to 1…

Q: the speed of a transverse wave

Q: 2. A pendulum oscillates 21 times in 30 seconds. a. What is the frequency of the pendulum’s…

A: Disclaimer: Since there are multiple questions, and there is no specific question number mentioned…

Q: Which of these expressions yields the speed of sound in air in SI units if the air temperature is…

A: Speed of sound in air increases with increase in temperature.

Q: A wave traveling along the x axis is described mathematically by the equation y =…

Q: What is the frequency of a wave which has a period of57500 s?2.A.0.00001386 HzD.0.00001908…

Q: The displacement of a wave traveling in the negative x direction is y(x,t) = 5.2 cos(5.5x + 72t),…

A: The displacement of the wave travelling in negative x-axis direction is given as, yx,t =…

Q: 58. Two waves , each with the wave lenght of 2.0 m , meet with a phase of 360o. What is the…

Q: Two travelling waves are defined: P+ = cos(kx-wt) and 4 = cos(kx+wt) Calculate the sum, 7++, and…

Concept explainers

Stretched string

A stretched string is a wire which is made up of any metal that must have a larger length compared to its thickness. The ends of the wire are fixed, and when they oscillate or are plucked, it produces two reflected transverse waves of the same frequency and same amplitude. The waves or pulses are traveling in alternate directions and superimpose with one another. This waveform is named standing or stationary waves.

Question

Exersise 2
1. Diagram 4 shows a displacement-time graph of a wave.
sim
olacement against time graph.
olecement of he particle/ cm
t/s
Hime, t/ s
Calculate the frequency of the given wave.
Diagram 5 shows a displacement-time graph and a
displacement-distance graph respectively for a water
wave.
0.5-
Dispiacement against distance graph
Displacement of parficle, s/ cm
- 0.5 -
0.1 0.2
0.36.4 0.5 0.6 t/ s
te s
Distance traveled by
the wave, d/ cm
x/ cm
0.5-
0.5 1.0 1.52.0 2.5 3.0 s/ cm
- 0.5
According to those graphs, determine:
1 Sketch displacement-time graph for a wave with:
amplitud, A = 5 cm
tempoh, T = 0.4 s
(a) amplitude
(b) Period
(c) Frequency
(d) wavelength
Activity 6:
Frequency, wavelength and speed of waves
Sketch a graph of displacement-distance for a wave
with
1. Relationship between frequency and wavelength
Amplidtud, A = 10 cm
Panjang gelombang, A = 4 cm
Diagram 6a
Diagram 6b
Compare the frequency between Diagram a and
127
(a)
Diagram b.

Expert Solution

This question has been solved!

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

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 2 images

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

11. If the distance from a point source of sound is tripled, then the sound intensity: A. decreases by a factor of 9. B. decreases by a factor of 3. C. stays the same. D. decreases by 9 decibels. E. decreases by 3 decibels.
QUESTION 6 A tranverse wave in a medium wave is described by the following equation: y(x,t) = (12 m)cos(3.0x - 120t). What is the speed of this wave? (x and y describe real space with units of meters, and t is time in seconds.) а. 60 m/s b. 70 m/s С. 50 m/s d. 30 m/s e. 40 m/s
A boat is moving up and down in the ocean with a period of 1.6 s caused by a wave traveling at a speed of 5.0 m/s. Determine the wavelength. Determine the frequency of the wave.
3. Examine the following wave. It takes the wave 5.0s to move the 3.5m from X to Y. wave motion a) b) c) d) àX Find the amplitude of the wave. Find the period of the wave. Find the frequency of the source. Find the wavelength of the wave. Find the speed of the wave. 1.5m Y
Two waves travelling at the same speed. Which statements about the figure below are correct? Group of answer choices Double the amplitude of a double the speed it travels. Amplitude of a is twice the amplitude of b. A has a lower frequency than b. A has a higher frequency than b. Amplitude of a is half the amplitude of b.
10. The sound intensity 5 meters from a point source is 0.5 mW/cm². The power output of the source is: A. 0.125 kW B. 0.39 kW C. 0.79 kW D. 1.6 kW E. 2.6 kW
If the wavelength of the standing wave of the vibrating string is 0.6 m, then calculate the length of the string (wire) in metre. а. 1.80 b. 0.20 O c. 0.90 d. 0.40 34°C t pilt A hp
2) The speed of sound in air is 343 m s. If the frequency of a sound wave is 220 Hz, what is the wavelength? a) 0.9 m/ b) 1.3 m c) 1.6 m d) 2.2 m
21. A sound wave travels at 340 meters per second. Determine how far from the source the wave has traveled after 0.50 second.
3.Which graph shows a linear relationship? The frequency is linear when plotted as a function of inverse length (ff vs. 1/L1/L). The frequency is linear when plotted as a function of length (ff vs. LL). 4.Draw a best-fit line through the linear graph’s data, and use the slope of this line to determine the wave speed. Express your answer in meters per second to two significant figures.
1. One end of the rope is vibrated to produce a wave with a wavelength of .25m. The Frequency of the wave is 3.0 Hz. What is the speed of the wave?