Determine the couple moment acting on the beam:
a) -20 kN m
b) 20 kN m
c) 30 kN m
d)-30 kN m
a) Replace the loading acting on the beam by an equivalent force and a couple moment at point A b) Show the equivalent force Fr, its two components, the angle e, and the moment on an xy coordinate where A is the origin of the xy axis. 3 kN 2.5 kN 1.5 kN 1. 2m 4 m - 2 m
Replace the distributed loading by an equivalent resultant force and couple moment acting at point A. suppose that omega_1 = 3.5 kN/m and omega_2 = 8 kN/m. Determine the equivalent resultant force. Determine the couple moment.
Replace the loading acting on the beam by: a) an equivalent resultant force and couple moment acting at point A; b) a single resultant force specify where the force acts, measured from point A). The depth of beam is negligible.
Replace the force and couple moment system acting on the overhang beam by a result force and couple moment at point A.
Represent the two forces and couple acting on the beam by a force F. Determine F and determine where its line of action- intersects the x axis. 00 Determine the magnitudes of the rectangular components of F 2 Determine the moment acting at origin Af Mo. Determine the distance D Static and Dynamics ENGI 2910 lecture # 5 03,18.19 Prof. Omaira M Collazos Page |2
Q2 - Determine the couple moment acting on the pipe shown in the figure below. 0.75 m B 0.5 m 50 N 1.25 m 50N
eplace the loading by an equivalent resultant force and couple moment acting at point O. Suppose that w1 = 8.5 kN/m and w2 = 4.5 kN/m
For the beam given below, determine the resultant internal loading acting on the cross section at C. Use the following assumption: The beam is weightless. Support A is a roller, and support B is a pin. The cross section C is 1 m away from A. (Tips: Internal loading includes normal force, shear force, and moment). . 100 kN 50 kN/m ol B 2m 1m 2m
Please answer all parts of the question and try making it simple to understand. 4-102 Replace the loading system acting on the post by an equivalent resultant force and couple moment at point A 650 N 500 N 30° 300 N 1500 N m 60° 3 m 5-10. Determine the components of the support reactions at the fixed support A on the cantilevered beam 6 KN 1.5 m 4 kN 1.5 m 1.5 m Determine the reactions at the supports....
The figure below depicts the cantilever beam. Determine the magnitudes of bending moment (M) in kNm, axial stress() in kN/m2, and shear force (V) in kN acting at point A. The equation for finding the axial stress is = Axial load / cross-section area. Cable XX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXI BT Beam (0.2 m × 0.2 m) Frictionless Pulley 3 m 50 kN Select one: a Bending moment (M) = 150 kNm, Shear force = 50 kN and axial stress = 1250 kN/m2...