Figure 2 of 3 Part C - Analyzing another force-couple system on a bracket The same...
A couple of magnitude M = 54 lb. in and the three forces shown are applied to an angle bracket.(a) Find the equivalent force-couple system (resultant force-couple) located at Point B.(b) Determine the resultant force couple located at Point C.(c) Determine locations, (x,y), where the resultant force-couple system consists only the net force but no resultant moment, i.e = Moment R = 0. Please definecoordinates first.
Knowing that 0 = 21° and Mc = 520 ft·lb, reduce the force-couple system shown to a single equivalent force, and determine where the line of action of that force intersects member CB measured from C. Enter the distance from C to the line of action of the single equivalent force below in ft to the nearest 0.01 ft. Enter a positive number if the intersection is right of point Cand a negative number if the intersection is left of...
Replace the loading system (Figure 1) by an equivalent resultant force and couple moment acting at point 0O. Assume F1= 130 N, F2= 190 N, and Mc= 75 N·m Determine the resultant force. Enter the x, y and Z components of the resultant force separated by commas. Express your answers in newtons to three significant figures. Fr= _______ N Determine the couple moment acting at point 0O. Enter the Xx, Yy and Zz components of the couple moment separated by commas. Express your answers...
3* Question #2 (5 pts): In the figure at right, replace the forces and couple acting on the structural member shown with an equivalent force-couple system at point G. Use the following values: Fi -100 lb, F 90 lb, F-120 lb, and C- 200 lb-ft.
Replace the loading system by an equivalent resultant force and couple moment acting at point O.Assume F1 -290i 170j 220k N Q Tap image to zoom Part A Determine the resultant force. Enter the x, y and z components of the resultant force separated by commas. FR =
Replace the force system acting on the post by a resultant force and couple moment at point O. Take F1= 350 lb and F2 = 230 lb . (Figure 1) Part A Determine the magnitude of the resultant force. Part B Determine the angle between the resultant force and the a axis. Part C Determine the equivalent resultant couple moment about the point O.
Determine the resultant couple moment acting on the pipe assembly. Assume (Mc)1= 520 lb⋅ft , (Mc)2= 300 lb⋅ft and (Mc)3= 320 lb⋅ft (Figure 1)Enter the x, y and z components of the resultant couple moment separated by commas.(MC)R = lb⋅ft
Replace the loading system by an equivalent resultant force and specify where the resultant's line of action intersectects a vertical line along member AP, measured from A. 1500 lb 180 lb/ft 100 lb/ft Р 70 lb/ft - 650 11 C 22B 1900 1b-ft 234 Inf 124 30 ft A2
Fundamental Problem 4.12 2 of 2 Part A rF1-(105і 120 + 95k)lbandF,-{-200i + 250 Express the result as a Cartesian vector. (Figure 1) 100k)lb, det meet e resultant moment produced by these forces about point O Enter the , and 2 components of the moment of force separated by commas Mo- Ib-ft Submit Request Answer Figure 1 of 1 < Return to Assignment Provide Feedback 4 ft 3 ft 5 ft
3. Two forces and a moment act on the bracket below. a) Find the resultant force. b) Replace the given system with an equivalent force-couple system acting at B. Sketch the result in the space provided below. Replace the given system with an equivalent system consisting of only a force whose line of action intersects the x axis. Determine the coordinate, d, of the point of intersection on the x axis. Sketch the result in the space provided below.4 SOON...