/forms/d/e/1FAlpQLSd4RchrEasXQMnNsy_DIJfnPEM5wrEBraj9RX4u_OJA7VH9BW/formResponseA MapsWhatsApp Webweb...Tn DashboardO https://umslb.liu.ed...gcTwo sinusoidal waves of wavelength A = 2/3 m and amplitude A = 6 cm anddiffering with their phase constant, are travelling to the right with same velocity v= 50 m/s. The resultant wave function y_res (x,t) will have the form:O y_res (x,t) = 12(cm) cos(p/2) sin(3nx+150rtt+p/2).O y-res (x,t) = 12(cm) cos(o/2) sin(3rx-180rt+p/2).O y_res (x,t) = 12(cm) cos(p/2) sin(150rtx+3rt+p/2).y_res (x,t) = 12(cm) cos(p/2) sin(150tx-3itt+p/2).O y_res (x,t) = 12(cm) cos(@/2) sin(3TX-150rt+p/2).The distance between the first and the third nodes of a standing wave is 0.1 m,its maximum displacement is 0.04 m and its frequency is 160 Hz. The wave-functions of the two travelling waves which interfere to give the standing waveare then:O y1 = 0.04 sin(20Ttx-320tt) ; y2 = 0.04 sin(20tx+320nt),O yi = 0.01 sin(10rtx-80tt) y2 = 0.01 sin(10rtx+80rt),y1 0.02 sin(20Tx-320nt), y2 = 0.02 sin(20x+320rt).O yl = 0.005 sin(5x-40rtt) y2 = 0.005 sin(5TTX+40rt),v1 = 0 01 sin(5mx-40nt) v2 = 0 01 sin(5mx+40mt)

(1) Given data, λ=23 mA=6 cmv=50 m/sThe basic equation for the two sinusoidal wave is given…

Two sinusoidal waves of wavelength A = 2/3 m and amplitude A = 6 cm and differing with their phase constant, are travelling to the right with same velocity v = 50 m/s. The resultant wave function y_res (x,t) will have the form: O y_res (x,t) = 12(cm) cos(@/2) sin(3rx+150tt+p/2). O y_res (x,t) = 12(cm) cos(p/2) sin(3rx-180rt+p/2). O y-res (x,t) = 12(cm) cos(p/2) sin(150rtx+3rt+p/2). O y_res (x,t) = 12(cm) cos(p/2) sin(150tx-3nt+p/2). O y_res (x,t) = 12(cm) cos(p/2) sin(3rx-150rt+p/2). The distance between the first and the third nodes of a standing wave is 0.1 m, its maximum displacement is 0.04 m and its frequency is 160 Hz. The wave- functions of the two travelling waves which interfere to give the standing wave are then: O y1 = 0.04 sin(20tx-320nt) y2 = 0.04 sin(20tx+320nt), O y1 = 0.01 sin(10tx-80rtt) y2 = 0.01 sin(10TTX+80nt), O y1 = 0.02 sin(20tx-320rt) y2 0.02 sin(20mx+320mt). O yl = 0.005 sin(5rtx-40rtt) y2 = 0.005 sin(5Ttx+40rtt),

Two sinusoidal waves of wavelength A = 2/3 m and amplitude A = 6 cm and differing with their phase constant, are travelling to the right with same velocity v = 50 m/s. The resultant wave function y_res (x,t) will have the form: O y_res (x,t) = 12(cm) cos(@/2) sin(3rx+150tt+p/2). O y_res (x,t) = 12(cm) cos(p/2) sin(3rx-180rt+p/2). O y-res (x,t) = 12(cm) cos(p/2) sin(150rtx+3rt+p/2). O y_res (x,t) = 12(cm) cos(p/2) sin(150tx-3nt+p/2). O y_res (x,t) = 12(cm) cos(p/2) sin(3rx-150rt+p/2). The distance between the first and the third nodes of a standing wave is 0.1 m, its maximum displacement is 0.04 m and its frequency is 160 Hz. The wave- functions of the two travelling waves which interfere to give the standing wave are then: O y1 = 0.04 sin(20tx-320nt) y2 = 0.04 sin(20tx+320nt), O y1 = 0.01 sin(10tx-80rtt) y2 = 0.01 sin(10TTX+80nt), O y1 = 0.02 sin(20tx-320rt) y2 0.02 sin(20mx+320mt). O yl = 0.005 sin(5rtx-40rtt) y2 = 0.005 sin(5Ttx+40rtt),

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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