What is the x component (R) of the resultant for the four forces and couple to...
To calculate the resultant couple and force at a point for a
given force and couple system.
Two forces F1F1F1 = 75 NN and F2F2F2 = 255 NN and two moments
M1M1M1 = 100 N⋅mN⋅m and M2M2M2 = 50 N⋅mN⋅m act on the beam as shown
in (Figure 1).
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Determine the x and y of the forces
1. Resultants of force systems (10 pts) Determine the x and y components of the three forces F1, F2 and F3. Also, determine the magnitude and direction of the resultant force. Solve the problem by filling the table below. Indicate force direction with positive/negative sign. Fz=100 N F=100N N x component (N) y component (N) 45° ST F3=200 N Resultant force
Configuration I Four forces acting on the central ring are expressed in terms of their magnitudes and directions: (1.96 N,o°), Fi - (0.950 N,10), 180), and F - (P, 270P). Calculate the values of Fs and Fs that will bring the Remember, if the system is in equilibrium, the sum of the r-components must add up to zero newtons and the sum of the y-components must add up to zero newtons. For example, Fs only has a component in the...
1. Determine the magnitude R of the resultant and the angle between the line of action of the resultant and the x-axis for the two forces shown F1 =400 N 6 60° F2 300 N 2. Determine the magnitude R of the resultant and the angle between the line of action of the resultant and the x axis for the four forces shown 12 F4 10 kN 12 3. Three forces are applied to a bracket mounted on a post...
Note that the angles are the direction cosine from the notes corresponding to α, β, and y. 1. Four forces are applied at a point in a body as shown Determine the F4xN 30 magnitude and direction (angles ee,, and e) of the resultant R of the four orces. i40° 50 40 Three forces are applied with cables to the anchor block shown in Fig. P2-98. Determine (a) The magnitude and direction (angles θ*, ey, and θ-' of the resultant...
point B The frame has an original loading system of four applied forces and one applied couple moment. Replace this loading system by an equivalent resultant force and couple moment acting at (FR) Original System Equivalent System Assume the following values: di-0.860 m , d2-1.14 m ,d; .690 m ,d,-2.00 m , Fi=503 N , F2 =310 N ,F, 505 N , F4s400 N , and M-1509 N·m. Express the Cartesian components of the resultant force and the couple moment...
2. Three forces are applied with cables to the anchor block shown in Pig. P2-98. Determine (a) The magnitude and direction x, y the resultant R of the (angles e,, and 9) of 0.6 m F 272 N 2500 N F3 650 N three forces. 2.7 m 3.6 m (b) The nagnitude of the rectangular component of force F, along the line 09 m 1.2 m 42m 3.6m of action of force F2 (c) The angle a between Fig. P2-98...
need complete answer please
2- Find the resultant of the following two forces using component method: Fi= 2.0 N at 01 = 30 and F2=4.0 N at O2 = 120 Hint: find the x and y component for each vector. Then use Pythagorean Theorem to find the resultant. Use the arc tangent to find the angle (direction.) |
2. There are two forces acting at C. What is the resultant from the two forces? What is the moment about the point o generated from the resultant force? Find the component of the moment about point which goes in the direction of OA. (20 pts.) 1 ft 3 ft F = (-20i + 10j + 30k) lb B 2 ft F. =-101 - 30j + 50k) lb
2. There are two forces acting at C. What is the resultant from the two forces? What is the moment about the point o generated from the resultant force? Find the component of the moment about point O which goes in the direction of OA. (20 pts.) 1 ft ft 3 ft F = {-20i + 10j + 30k) lb B 2 ft F = (-10i - 30j + 50k) ID