The equivalent force-couple system at O looks like this. Mo 4 HR Solve for the forces...
Replace the given loads with an equivalent force-couple system at O by specifying the resultant R and couple Mo. Next, determine the equation for the line of action of the stand-alone resultant force R. 1.1 m 0.30 m J001 0.7 /5.4 kN / m m1.6 m 75 14 kN-m 10.7 kN 7.0 kN0.30 m Answers: Equivalent force-couple system at O R = 8.79 +2.355 kN Mo =T 19.1502 KN·m The equation for the line of action of the stand-alone resultant...
Replace the loading system by an equivalent resultant force and couple moment at 0. X 2016 aft В F = (21-4j +56)1b -24 || 1-244t-aft Mo 10 16.67 Us So16 Replace the loading system by on equivalent resultant force and couple moment at o.
Replace the forces acting on the L-shaped bracket with the following force-couple systems. Neglect the thickness of the bar in your calculations. (Express the resultant forces in vector form in newtons.) 290 NA 190 mm 480N 190 mm cDE I 190 mm 190 mm 190 N (a) an equivalent force-couple system that acts at point A Indicate the magnitude in N.m and direction of the couple moment, magnitude Nm direction -Select- (b) an equivalent force-couple system that acts at point...
Problem 3 1. Replace the two given forces by an equivalent Force-Couple system at point B 2- Determine the equivalent resultant moment about AB of the two given forces exerted at point C. 600 N 4A 500 N 150 mm 150 mm 100 mm -300 mm
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...
Find the equivalent resultant force and couple system at points O and D, given: F1 = 45 lbs, F2 = 20 lbs, F3 = 15 lbs, L1 = 8 ft, L2 = 6 ft, L3 = 5 ft, x,y,h = 4,3,5, respectively FR = lbs Φ = ° MO = lb·ft MD = lb·ft Find the equivalent resultant force and couple system at point A. Express your answers as Cartesian vectors. MB is parallel to the Z-axis and MC is...
Determine equivalent force-couple system at A. If Fac-999 N and F-1998 N write both resultant and moment about A in form of sum of components (xi +y k) Identify coordinates of points A ( в ale D ( E( 3 mi 3 un 1,5 m Set up and solve equations for sums of the forces in each direction a. i + b. Fill in the blanks: R = Set up matrices needed to determine moment about A c. d. Resolve...
HW: 3-4-6 Replace the two forces and moment with an equivalent force-couple system at point A. Answer(s); 1000mm 125N V 215Nm 1500mm 500N
Figure 2 of 3 Part C - Analyzing another force-couple system on a bracket The same bracket and force-couple system as that in Part B (F=159 lb, F = 53 lb, and M-590 lb-ft) is set up again, only this time, the resultant force is to be applied to the horizontal member CB.(Figure 2)Replace this force and couple system with an equivalent force by specifying the magnitude of the force, the direction in which the force acts, and where the...
Question 3 Forces F1, F2, F3, and F4 and the moment of a couple Mc are acting on a 3D rigid body as shown in Fig. 3. Convert this force and moment system into a single resultant force passing through Point F and an equivalent turning moment. Calculate both the resultant force at F and the corresponding turning moment as vectors. Further, reduce the force and moment system at F into a wrench resultant and calculate the turning moment of...