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ASSIGNMENT 1 1. Determine the resultant of the forces using the component method. P 20N 42...
Determine the resultant R of the forces below. Solve using the tabular methodor using the graphical method showing magnitude (2 dec. places) and resultant angle (1 dec. place). 1.) Determine the resultant R of the forces below. Solve using the tabular method or using the graphical method showing magnitude (2 dec. places) and resultant angle (1 dec. place). 3 kN 5 kN 30% 507 8 kN 1.) Determine the resultant R of the forces below. Solve using the tabular method...
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.) |
Magnitude of the force P is 75lb. Determine the resultant of the three forces applied at A.
1.2 Determine the resultant (magnitude and direction) of the three forces shown using the graphical method. Scale: 14"-100# FF450# F-300# 4 70° F3-550#
Two forces P and Q are applied to the lid of a storage bin as shown, where P = 48 N, Q = 78 N. Answer part a. before answering part b. Using trigonometry, determine the direction of the resultant of the two forces. (Round the final answer to a single decimal place. result should be an acute angle measured from a horizontal axis.) The direction of the resultant of the two forces is _______ °.
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...
Determine the nodal displacements and reaction forces using the finite element direct method for the 1-D bar elements connected as shown below. Do not rename the nodes or elements when solving. Assume that the bars can only undergo translation in x (1 DOF at each node). Nodes 1 and 3 are fixed Element 1 has Young's Modulus of 300 Pa, length of 1 m and cross-sectional area of 1 m2. Element 2 has Young's Modulus of 200 Pa, length of 2...
The two forces P and Q act on a bolt A. Determine their resultant and direction (30p) a 60 N 25 P 40N 120 Delermine he shear and fimply supported beam shown below mome nt of inertia (I= 5xi0 m) ending shresses el giving moment of afeale-x10 mand the Section in redwgular a n illh 120mm and heht 200 mm -5 1-Draw the S.FD and BM.D to find shear force and mas Dending moment Pcaleulute shear stres rom the eyn...
Four forces act on a frame as shown below. Determine the resultant force and the resultant moment of the four forces acting on the frame about point A. Write the result in Cartesian form. Use 55lb, 75lb. 30. Sft, 6ft. t and 3ft instead of 40 lb, 60 ib, 30, 3 ft, 4 ft, 2 ft and 1 ft. Also, use 9. 12, and 15 triangle instead of 3, 4, and 5 triangle. 1-4t lb 40 1b B Ift 30...
1. Determine the resultant of the two forces acting on the eyebolt shown. 65 KN 80 KN 250 1 10° A 250-lb weight is lifted using two ropes. To lift the weight, the resultant of the two tensions T and T2 must be 250 lb acting vertically upward. Determine the tension in each rope, T, and T2, if 0 = 40° 350 T