Problem 5: Two transverse waves travel along the same taut string. Wave 1 is described by y,(x, t) = A sin(kx - wt), while wave 2 is described by y2(x, t) = A sin(kx + wt + q). The phases (arguments of the sines) are in radians, as usual, and A = 3.6 cm and o = 0.65n rad. Part (a) Choose the answer that correctly describes the waves' directions of travel. MultipleChoice : 1) Due to the o term in the phase of wave 2, it does not travel. Wave 1 travels in the positive x-direction. 2) Wave 1 travels in the positive x-direction, while wave 2 travels in the negative x-direction. 3) Both waves travel in the negative x direction. 4) There is not enough in: 5) Both waves travel in the positive x-direction. 6) Wave 1 travels in the negative x-direction, while wave 2 travels in the positive x-direction. 7) Due to the ø term in the phase of wave 2, it does not travel. Wave 1 travels in the negative x-direction. nation. Part (b) What form do the wave functions take at the position x = 0? MultipleChoice : 1) y1 = A, y2 = 0 2) y1 = A sin(-wt), y2 = A sin(wt + p) 3) y1 = A cos(-wt), y2 = A cos(wt + g) 4) y1 = A sin(k - wt), y2 = A sin(k + wt + ø) 5) y1 = 0, y2 = 0 6) There is not enough information. 7) yı = A sin(-wt), y2 = A cos(wt) B) y1 = A sin(-wt), y2 = A sin(wt) 9) y1 = 0, y2 = A a-B sin 2 a+B Part (c) Use the trigonometric identity sin a+sin ß=2cos- displacement of the string at the positic.. . SchematicChoice : to find the correct function of time for the total y(t) = 2 sin- cos (wt + y(t) = 2A sin cos (wt + y(t) = 2A cos sin (wt + y(t) = 2A sin sin (wt + ) y(t) = A sin cos (wt + 2) y(t) = 2A sin o cos(2wt + «) cos (ut + y(t) = 2A cos

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Problem 5: Two transverse waves travel along the same taut string. Wave 1 is described by y,(x, t) = A sin(kx - wt), while wave 2 is described by y2(x, t) = A sin(kx + wt + Q). The phases (arguments of the sines) are in radians, as usual, and A = 3.6 cm and o = 0.65A rad. Part (a) Choose the answer that correctly describes the waves' directions of travel. MultipleChoice : 1) Due to the o term in the phase of wave 2, it does not travel. Wave 1 travels in the positive x-direction. 2) Wave 1 travels in the positive x-direction, while wave 2 travels in the negative x-direction. 3) Both waves travel in the negative x direction. 4) There is not enough information. 5) Both waves travel in the positive x-direction. 6) Wave 1 travels in the negative x-direction, while wave 2 travels in the positive x-direction. 7) Due to the o term in the phase of wave 2, it does not travel. Wave 1 travels in the negative x-direction. Part (b) What form do the wave functions take at the position x = 0? MultipleChoice : 1) y1 = A, y2 = 0 2) y1 = A sin(-wt), y2 = A sin(wt + p) 3) y1 = A cos(-wt), y2 = A cos(wt + 4) 4) y1 = A sin(k - wt), y2 = A sin(k + wt + ø) 5) y1 = 0, y2 = 0 6) There is not enough information. 7) y1 = A sin(-wt), y2 = A cos(wt) 8) y1 = A sin(-wt), y2 = A sin(wt) 9) y1 = 0, y2 = A Part (c) Use the trigonometric identity sin a+sin ß=2cosPsit a-B a+B to find the correct function of time for the total sin 2 displacement of the string at the positic.. . SchematicChoice : y(t) = 2 sin- cos ( wt + y(t) = 2A sin- - cos (wt + ) y(t) = 2A cos, sin (wt + = 2A sin sin (wt +) y(t) = A sin- (at +) yt) y(t) %3D = 2A sin o cos(2wt + 4) y(t) cos (wt + = 2A cos - cos Part (d) With A = 3.6 cm and o = 0.65T; rad, calculate the total displacement of the string, in centimeters, at the position x = 0 at time t = 0. Numeric : A numeric value is expected and not an expression. y(0) = Part (e) If, instead, you are given o = 0, what will be the total displacement of the string at the position x = 0 as function of time, t. MultipleChoice : 1) The displacement will vary between -2A and 2A at a rate given by the period, 27/w. 2) The displacement will be y = 0 for all t. 3) The displacement will be y = A sin(4) for all t. 4) There is not enough information. 5) The displacement will be y = 2A for all t. 6) The displacement will be y = A for all t. 7) The displacement will vary between -A and A at a rate given by the period, 27/w