Q-3. A sinusoidal wave moving along a string is shown twice in figure, as crest A travels in the positive direction of an x axis by distance d = 6.0 cm in 4.0 ms. The tick marks along the axis are separated by 10 cm; height H=6.00 mm. The equation
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A: thank you.
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Q: Don't use chat gpt It Chatgpt means downvote
A: Understanding the Wave PhenomenaThe provided image describes two sinusoidal waves traveling along a…
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- A transverse wave in a string has the form y= 6.3 cos pi (0.09 x +2t), where x is in centimeters and t is in seconds. A) Find: The maximum amplitude in centimeters ( with one decimal place)The wave propagates at a speed of 12 m/s from A to B with the equation of "difference": y = 0.06 sin 20xt and the initial deviation is upwards (y and t are SI base units). The distance AB is 2.5 m. Exactly when B has 3/4 phase, point A deviates by... а. 3 ст, down b. 3 cm, up С. 3V3 ст, ир d. 3v3 cm, down е. б ст, downDisplacements of two waves on a string:y1 = 24.0 mm sin(-1.25πx + 9πt)y2 = 35.0 mm sin(0.40πx + 2.88πt)where x is in meters, y is in millimeters and t is in seconds. At t = 4.00 s, Calculate the resulting displacement at:a) X = 2.16 mb) X = 2.56 m
- 2You are trying to photograph a moose across a lake that you estimate is 100m wide. You notice a seiche with a period of 20 seconds. Estimate the depth of the lake. Use the following for wave speed (C) and its relationship to bottom depth wave length and wave period:Two waves traveling in opposite directions result in a standing wave. If the function of each (4Cm) Sin(3x-2t) wave is: Y1 and Y2 = (4Cm)Sin(3x+2t), then the maximum displacement of the oscillating body is: %D
- The following wave function describes a transverse wave on a rope, with x and y in meters and t in seconds. Зп у (х,t) — 0. 5т sin(3пх + t) 4 i. Calculate the wavelength, period and speed of the wave. ii. At t = 1.0 s, calculate the transverse velocity of rope element located at x = 0.20 m? At t =1.0 s, calculate the transverse acceleration of a rope element located at x 111. = 0.20 m?For this wave find (a) its velocity of propagation (b) the transverse velocity (c) the transverse acceleration (d) the maximum displacement, velocity and acceleration of a particle on the string. 5. Retry the previous problem for the wave: πT y = 7.35 cos(6x + 15tPls solve this question correctly instantly in 5 min i will give u 3 like for sure
- A silver wire of length 25.0 m is connected end to end with a gold wire of length of 10.0 m. Both have 2.00-mm diameters and are stretched to a tension of 20ON. A.) Find how long (in seconds) it take a transverse wave to travel the entire length of the two wires. The density of liver and gold are 10,497 kg/m^3 and 19,300 kg/m^3, respectively. A. 0.769 B. 0.637 C. 0.495 D. 0.118 E. 0.373A transverse wave in a string has the form y= 3.00 cos pi (0.02 x +9.00t), where x is in centimeters and t is in seconds. Please give your answer with one decimal place. Find: maximum transverse speed of the particles in the string in cm/s with one decimal places please.18. A sound wave s(r, t) = sm Cos(ka – wt +o) travels at 343 m/s through air in a long horizontal tube. At one instant, air molecule A at r = 2.00 m is at its maximum positive displacement of 6.0 nm and air molecule B at r = a positive displacement of 1.5 nm. All the molecules between A and B arc at intermediate displacements. What is the 2.05 m is at frequency of the wave? (1) 1400 Hz (2) 1300 Hz (3) 1200 Hz (4) 1100 Hz (5) 1000 Hz