Replace the two forces which act on the 2.6-m cube by an equivalent single force R at A and a couple M.
Replace the two forces which act on the 2.6-m cube by an equivalent single force R at A and a...
Replace the two forces which act on the 3.1-m cube by an equivalent single force Rat A and a couple M. 28 KN 3.1 m 31 KN A 3.1 m 3.1 m Answer: R=li k) kN M=( i k) kN.m
Replace the two forces with an equivalent single force F. Find the location d of this force as it intersects edge AB. 3-4-1-23 Replace the two forces with an equivalent single force F. Find the location d of this force as it intersects edge AB. 36in 16im 12in 25lb 24" | 18b Answer(s): O d-25.9 in d-15.3 in o d-4.37 in d-34.2 in o d- 17.2 in O None of these.
Z Replace the two forces shown acting on the pipe system with an equivalent force and couple moment acting about A. 150 N 2 m 1 m 2.5 m 2 m 200 N
2. Replace the two forces and the couple applied to the pipe assembly with a single equivalent force and couple system at the base O. The equivalent system will case the same reactions from the base. Use Cartesian notation. 50 lb X 40 lb-ft 60 lb 15" 12"
The forces F1={−6i+4j−2k}kN and F2={5i−5j−2k}kN act on the end of the beam. Replace these forces by an equivalent force and couple moment acting at point O.Determine the equivalent resultant couple moment about point O.
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
four forces are applied to the machine component ABDE as shown. Replace the forces by an equivalent force couple system at A
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 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...