Four parallel forces act on the plate as shown. For the force system shown, find the equivalent resultant force and specify its x and y location from the origin, given: FA = 170 lbs, FB = 240 lbs, FC = 210 lbs, FD = 140 lbs, LX = 16 ft, LY = 14 ft, BY = 5 ft, DX = 6 ft The magnitude of resultant force, FR is: (positive number)FR = lbs The distance from the Origin in the positive X-direction is:X = ft The distance from the Origin in the positive Y-direction is:Y = ft FcFoDxFour parallel forces act on the plate as shown. For the force system shown, find the equivalent resultant force and specifyits x and y location from the origin, given:FA = 170 Ibs, Fe = 240 lbs, Fc = 210 lbs, FD = 140 lbs, Lx = 16 f, Ly = 14 A, By = 5 ft, Dx = 6 tThe magnitude of resultant force, FR is: (positive number)IbsFR = NumberThe distance from the Origin in the positive X-direction is:X= NumberThe distance from the Origin in the positive Y-direction is:Y = Number

∑Fy=FRFR=FA+FB+FC+FDFR=170+240+210+140FR=760 lbs∑Mx=FRy(760*y)=540*5+210*14+140*14y=10 ft

Four parallel forces act on the plate as shown. For the force system shown, find the equivalent resultant force and specify its x and y location from the origin, given: FA = 170 lbs, FB = 240 lbs, FC = 210 lbs, FD = 140 lbs, LX = 16 ft, LY = 14 ft, BY = 5 ft, DX = 6 ft The magnitude of resultant force, FR is: (positive number) FR = lbs The distance from the Origin in the positive X-direction is: X = ft The distance from the Origin in the positive Y-direction is:

Four parallel forces act on the plate as shown. For the force system shown, find the equivalent resultant force and specify its x and y location from the origin, given: FA = 170 lbs, FB = 240 lbs, FC = 210 lbs, FD = 140 lbs, LX = 16 ft, LY = 14 ft, BY = 5 ft, DX = 6 ft The magnitude of resultant force, FR is: (positive number) FR = lbs The distance from the Origin in the positive X-direction is: X = ft The distance from the Origin in the positive Y-direction is:

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter1: Introduction To Statics

Section: Chapter Questions

Problem 1.48P: The pole OB is subjected to the 6004b force at B. Determine (a) the rectangular components of the...

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