4. [5pt] A Lorentzian wave pulse is described by y(x,t) = Aγ²/((x−vt)²+γ²) . Suppose A = 3.0 cm, γ = 5.0 cm, and v = 4.0 m/s. a) Plot the function for t = 0.55 s. b) What is the speed of the particle at x = 2.00 m and t = 0.55 s? [ans. -0.19 cm/s] Question to be Graded Manually.
4. [5pt] A Lorentzian wave pulse is described by y(x,t) = Aγ²/((x−vt)²+γ²) . Suppose A =...
4. [5pt] A Lorentzian wave pulse is described by y(x,t) = Aγ²/((x−vt)²+γ²) . Suppose A = 3.0 cm, γ = 5.0 cm, and v = 4.0 cm/s. a) Plot the function for t = 0.55 s. b) What is the speed of the particle at x = 2.00 cm and t = 0.55 s? [ans. -0.19 cm/s]
4. [5pt] A Lorentzian wave pulse is described by Suppose A- 3.0 cm,y5.0 cm, and v -4.0 m/s. a) Plot the function for t = 0.55 s. b) What is the speed of the particle at x = 2.00 m and t = 0.55 s? [ans. -0.19 cm's]
Find the phase speed v for the wave whose snapshot and history
graphs are given below. Show your calculations for the wave crest.
[ans. -1.5 m/s]
Please show work :)
5. [5pt Find the phase speed v for the wave whose snapshot and history graphs are given below. Show your calculations for the wave crest. [ans. -1.5 m/s] 3-1 211 t = 8 0 1 2 3 5 6 78 9 10 11 12 X (m) 2x7 m -3 0...
A traveling wave is described by the equation: TT y(x, t) = (0.35 cm) sin ( 3173 107t + 4 Find: a. the wavelength of the wave; b. the period of the wave; c. the speed and direction of travel of the wave; Now consider the particle at x = 10 cm. d. Find the vertical displacement of the particle t = 0. e. Find the maximum transverse speed and acceleration of the particle. If the oscillator that is generating...
A wave on a string is described by y(x,t)=( 2.0 cm )×cos[2π(x/( 3.6 m )+t/( 0.20 s ))] , where x is in m and t is in s. A)In what direction is this wave traveling? Negative B)What is the wave speed? 18 m/s C)What is the wave frequency? Hz D)What is the wave length? m E)At t = 0.50 s , what is the displacement of the string at x = 0.30 m ? cm
A wave traveling along the x axis is described mathematically by the equation y = 0.19 sin (8.1πt - 0.59πx), where y is the displacement (in meters), t is in seconds, and x is in meters. What is the speed of the wave? answer in m/s
A propagating wave is described by the wave function (in SI units) y(x, t) = 3 sin(4.x + 2.t) What can be said about the direction of wave propagation and its speed (assume positive x direction is to the right)? o Wave propagates to the left with the speed of 0.5 m/s o Wave propagates to the right with the speed of 0.5 m/s o Wave propagates to the left with the speed of 2 m/s o Wave propagates to...
On a very long flexible string, a sinusoidal wave train is described by y(x, t) = (3.0 cm) sin((π/2 cm−1)x − (4π s−1)t) where y is the upward or downward displacement of each bit of string from its equilibrium level, and x is the horizontal distance on the string. a. Are the waves heading towards the +x direction or x direction? How can you tell? b. What is the speed v of the wave? c. In one second, how many...
A
sinusoidal wave is described by (5.0cm) cos[(1.6m^-1)x - (11.9
s^-1) + 0.785]. What is the speed of the wave?
Jestion 2 A sinusoidal wave is described by (5.0 cm) cos((1.6 m)x - (11.9.s)t +0.785). What is the speed of the wave? -9.5 ms 7 4 m/s 19 m/s 0.785 mis 013 m/s
The position of a particle is described by the function x = 3.0 t2 + 5.0 t + 3.0 (m). Determine the average velocity (in m / s) for the time interval t1 = 2.0 s and t2 = 4.0 s.