Transversal wave equations that propagate on a rope are Y=20 sin 4π(3t-0,5x)cm .With y and x stated in cm and t in a second. decide amplitude, frequency, wavelength, velocity waves phase, maximum velocity of particles on x=0 inside the rope, The direction the waves creak, How are the equations of particle motion at a balanced position x=0 and determine the curve of the rope on t=0

Transversal wave equations that propagate on a rope are Y=20 sin 4π(3t-0,5x)cm .With y and x stated in cm and t in a second. decide amplitude, frequency, wavelength, velocity waves phase, maximum velocity of particles on x=0 inside the rope, The direction the waves creak, How are the equations of particle motion at a balanced position x=0 and determine the curve of the rope on t=0

Related questions

Q: Sinusoidal water waves are generated in a large ripple tank. The waves travel at 38.7 cm/s and their…

A: Speed of wave is v =38.7 cm /s The distance between adjacent crests is 6.37 cm .

Q: Waves with frequency 2 hz travel along the rope at ramble speed 5 m/s. What is the different phase…

A: Formula to be used: ∆ϕ=2πλ∆xwhere, ∆ϕ is the different phase between a different drop of a rope∆x is…

Q: A disturbance is described by the following formula: y(x,t)=7sin(3t-5x). What is the period of the…

A: The displacement of the disturbance is given by y(x,t)=7sin(3t-5x) The displacement of the wave is…

Q: For the waveform, determine the following if the speed of the wave is 140m/s. Amplitude = Period =…

A: The maximum vertical height of the wave shows the amplitude which is 3 N. Hence, the amplitude of…

Q: A 2.0 m long wire was drawn so that it had a tension of 250 N this wire was disturbed by its center…

A: Given that, The length of a wire, l = 2 m The tension produced in the wire, T = 250 N The mass of…

Q: 6. Anna, Bob, and Carlos are all in a very large but shallow swimming pool. Carlos is at the center…

A: Wavelength: The distance between peaks is given as 8 meters, which is the wavelength of the waves.…

Q: Kinematic wave equation I Calculate the time of concentration in minutes for a stream of length 8 km…

A: The stream length is The roughness coefficient is The intensity of rainfall is The slope is The…

Q: Given is a sine wave in time domain, using this wave plots answer the following: How much is the…

A: The wave frequency can be defined as the number of cycles passing through a fixed point in one…

Q: You are standing on the beach and a five wave crest lands onshore in 50 seconds. each wave is 32m…

A: Wavelength is 32m

Q: A block of mass m 4.60 kg is suspended from a wire that passes over a pulley and is attached to a…

Q: A A C Greatest Amplitude These 2 interfering pulses will have the same amplitude Least Amplitude 口ロ

Q: which phase angle gives maximum thrust and mass force on an inclined cylinder when angle B is 50…

A: To determine the phase angle that gives the maximum thrust and mass force on an inclined cylinder…

Q: Vibrating a long spring with a succession of pulses with a frequency of 50 Hz produced nodes that…

Q: What is the wavelength of the waves you create in a swimming pool if you splash your hand at a rate…

A: Answer Given Frequency f=6 Hz Speed of wave v=0.97 m/s We have to find wavelength λ

Q: Anna, Bob, and Carlos are all in a very large but shallow swimming pool. Carlos is at the center of…

A: a) From Anna's measurements, we can determine the wavelength, frequency, and speed of the ripples.…

Q: The solution of travelling wave y(cos(kx - wt) is = k² ax² at² Show that a supper position of two…

Q: Why does the speed of a wave change when the amplitude remains the same but the frequency changes?

A: The speed of a wave is always its wavelength times its frequency.Speed = Wavelength x Wave…

Q: A boat at anchor is rocked by waves whose crests are 26 m apan and whose speed is 7 m/s. a) What is…

A: Given data: Distance between two successive crests = 26 m Speed (v) = 7 m/s Required: The frequency…

Q: Waves produced by two vibrations in a medium have wavelengths 2 m and 2.1 m respectively. When…

A: Given, λ1= 2 mλ2= 2.1 mn2-n1=8 beats/sec

Q: length of the air column in a resonace

A: The resonant frequencies in the air column depends on the speed of sound in air, length and geometry…

Q: The sound of a weight dropping to the ground is 87 sec. What is the frequency of the sound wave for…

A: Frequency of the wave is the inverse of time, f = 1/ t = 1/87s = 1.149 *10-2 hertz

Question

100%

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

Step 2

Step 3

Step 4

Step 5

Step by step

Solved in 5 steps with 8 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

For the following statements, identify which are True and which are False. If False, please explain
Waves
The choice for the first box is transverse and longitudinal. The second box is -2, -4, 0, 2, 1 (cm), and the third box is 2, 5, 4, 6, 3 cm
q4
A 10m long 100 gram string is tied at one end to a door knob and the other end is pulled tight horizontally to the floor and shaken up and down - producing waves down the string. How fast are the waves?
Sinusoidal water waves are generated in a large ripple tank. The waves travel at 24.7 cm/s and their adjacent crests are 8.19 cm apart. What is the time required for one complete oscillation? Express your answer in seconds, to at least two digits after the decimal point.
In the figure the colored dot exhibits simple harmonic motion as the longitudinal wave passes. The wave has an amplitude of 4.63 x 10 3 m and a frequency of 2.70 Hz. Find the maximum acceleration of the dot. Number i Units MAMMA
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
For any vector quantity, be sure to always include the magnitude and direction ty
4- In a monoatomic oscillation system: If the frequency is given by the 47 ka relationship = sin M 2 a- Prove that in the case of long waves, the waves generated are sound waves? b- Prove that the waves at the boundary are standing waves? Write the wave function in this case?
A)Draw the standing wave pattern in an open air column for the 4th resonant length. B) What would the first resonant length be? Answer in cm.
51