Problem 5 Replace the distributed loading shown with a single resultant force and indicate its location....
4-139. Replace the distributed loading with an equivalent resultant force, and specify its location on the beam measured from point O.
Problem 3: Replace the distributed loading with an equivalent resultant force, and specify its location on the beam measured from point A.
Replace the distributed loading with an equivalent resultant force, and specify its location on the beam measured from point A.
(Figure 1) Part A Replace the distributed loading with an equivalent resultant force.Part BSpecify the location of Fr on the beam measured from point A.
Replace the loading on the beam by an equivalent resultant force and specify its location measured from point A. (b) Calculate the value of the reactions at support A and support B. (c) calculate the shear, normal force, and bending moment at a point 1.5 m to the right of A. (d) Same as (c) but at a point 0.5 m to the right of B. The system is in equilibrium.
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.
ENGR 250 Prob. 4: Replace the loading acting on the beam by a single resultant force. Specify where the force acts, measured from B. (25 Points) Statics Fall Semester 2018 HW#3 Due on 10-10 700 N 450 N 300 N 60% 1500 N m 3
Replace the loading on the frame by a single resultant force.
Specify where its line of action intersects with memberCD, measured from point C.Use F1 = 150 N, F2 = 440 N, F3= 530 N, and M = 120 Nm for your calculations.Your Answer:Magnitude of the resultant force in N (round the result to the
nearest integer):Angle (measured counterclockwise against the horizontal line DC) of the resultant force in degrees (round the result to
the nearest integer):Resultant couple moment at point...
Find the resultant force and
the location at which it acts to produce the same effect on bar AB
as the distributed loading shown below. (Enter the magnitude of the
force in newtons and the location in millimeters.)
Find the resultant force and the location at which it acts to produce the same effect on bar AB as the distributed loading shown below. (Enter the magnitude of the force in newtons and the location in millimeters.) 1 kN/m ← 790...
The beam below is subjected to a distributed load as shown in the figure. Replace the loading by a single resultant force and specify the location of the force measured from the pin support on the left. Draw the resultant system. Find the magnitude of the support reactions.