Two traveling waves are generated on the same taut string. Individually, the two traveling waves can...
Two traveling waves are generated on the same taut string. Individually, the two traveling waves can be described by the two equations yı (x, t) = (3.41 cm) sin(kıx + (0.173 rad/s)t +0.) y2 (x, t) = (4.28 cm) sin(k2x – (5.20 rad/s)t + 02) If both of the traveling waves exist on the string at the same time, what is the maximum positive displacement Ay that a point on the string can ever have? Ay= 7.69 What are the...
Two traveling waves on same string with equations: (@ - phase constant) y1(x,t) = (3.41cm) sin(k1x + (.208 rad/s)t + @1) y2(x,t) = (3.78cm) sin(k2x - (8.26 rad/s)t +@2) What are the smallest positive values of the unknown phase constants such that the max displacement occurs at x=0, t=2.01? (max displacement = 7.19) Please explain answer for @2
Two waves are traveling in opposite directions on the same string. The displacements caused by the individual waves are given by yi (27.0 mm)sin(7.35nt 1.95nx) and y2 (34.0 mm)sin(2.88nt+0.488nx). Note that the phase angles (7.35nt 1.95nx) and (2.88nt+0.488nx) are in radians, t is in seconds, and x is in meters. At t = 3.10 s, what is the net displacement (in mm) of the string at (a) x- 2.26 m and (b) x- 2.67 m? Be sure to include the...
Two waves are traveling in opposite directions on the same string. The displacements caused by the individiual waves are given by y1=(25.0 mm)sin(8.50πt - 1.24πx) and y2=(38.0 mm)sin(3.43πt + 0.267πx). Note that the phase angles (8.50πt - 1.24πx) and (3.43πt + 0.267πx) are in radians, t is in seconds, and x is in meters. At t = 5.80 s, what is the net displacement (in mm) of the string at (a) x = 2.02 m and (b) x = 2.85...
Two waves are traveling in opposite directions on the same string. The displacements caused by the individiual waves are given by y1=(22.0 mm)sin(9.86πt - 1.52πx) and y2=(36.0 mm)sin(2.53πt + 0.330πx). Note that the phase angles (9.86πt - 1.52πx) and (2.53πt + 0.330πx) are in radians, t is in seconds, and x is in meters. At t = 3.20 s, what is the net displacement (in mm) of the string at (a) x = 2.31 m and (b) x = 2.93...
Two waves are traveling in the same direction along a stretched string. The waves are 90.0
Two waves traveling on a string in the same direction both have a frequency of 125 Hz, a wavelength of 2 cm, and an amplitude of 0.06 m. What is the amplitude of the resultant wave if the original waves differ in phase by each of the following values? (a) */6 cm (b) / cm eBook
Two waves traveling on a string in the same direction both have a frequency of 100 Hz, a wavelength of 2 cm, and an amplitude of 0.06 m. What is the amplitude of the resultant wave if the original waves differ in phase by each of the following values? (a) π/6 cm (b) π/3 cm
the wave function for a traveling wave on a taut string is (in si units) y(x,t) = 0.360 sin (15pi -2pix + pi/4) Assignment #20 - PHYS 2213, Fal x + → C webassion.net/web/Student/Assignment-Responses/submit?dep=22560947&ta Jx 082 If you know the number of waves that come past every second (the frequency) and the length Need Help? 2. 2/6 points Previous Answers SerPSE 10 16.2.OP.007.MI. The wave function for a traveling wave on a taut string is (in SI units) x(xt) -...
Two sinusoidal waves of the same frequency travel in the same direction along a string. If ym1 = 5.0 cm, ym2 = 6.7 cm, φ1 = 0, and φ2 = π/5 rad, what is the amplitude of the resultant wave? Number ______________ Units: ____