Replace the loading system (Figure 1) by an equivalent resultant force and couple moment acting at point 0O. Assume F1= 130 N, F2= 190 N, and Mc= 75 N·m
Determine the resultant force.
Enter the x, y and Z components of the resultant force separated by commas. Express your answers in newtons to three significant figures.
Fr= _______ N
Determine the couple moment acting at point 0O. Enter the Xx, Yy and Zz components of the couple moment separated by commas. Express your answers in newton-meters to three significant figures.
(Mo)R= _______ N*m
Replace the loading system (Figure 1) by an equivalent resultant force and couple moment acting at...
Replace the loading system by an equivalent resultant force and couple moment acting at point O.Assume F1 -290i 170j 220k N Q Tap image to zoom Part A Determine the resultant force. Enter the x, y and z components of the resultant force separated by commas. FR =
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...
Problem 4.101 Replace the loading system acting on the beam by an equivalent resultant force and couple moment at point O. Suppose that Fi = 750 N, F2 = 300 N, and M = 400 N.m. (Figure 1) Figure 0.2 mm 2 m Part A Determine the magnitude of the resultant force. Express your answer to three significant figures and include the appropriate units. O': HÅR FrValue OO? Units Submit Previous Answers Request Answer X Incorrect; Try Again; 3 attempts...
Thanks For the left figure below, replace the distributed loads by an equivalent resultant force and a couple moment acting at point A. (See the right figure below.) Let a = 3.05m, w1 = 5.95kN/m, and w2 = 4.60kN/m . Calculate the resultant force's magnitude FR, and the couple moment, MR,A Express your answers numerically in kilonewtons and kilonewton-meters to three significant figures separated by a comma.
Replace the loading system by an equivalent resultant force and couple moment acting at point A. Assume F1 = 35N, F2 = 25N and F3 = 55 N.Part A Determine the magnitude of the resultant force.Part B Determine the angle between the resultant force and the x axis. Part C Determine the couple moment acting at point A.
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 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 system shown by an equivalent resultant force and couple moment acting at point A.
For the left figure below, replace the distributed loads by an equivalent resultant force and a couple moment acting at point A. (See the right figure below.) Let a = 3.50 m, w1 = 5.90 kN/m, and w2 = 5.00 kN/m Calculate the resultant force, FR, and the couple moment, MR,A Don't forget to include the appropriate signs (consistent with the right figure) with your numerical answers.
Express your answer using three significant figures. Replace the force system by an equivalent resultant force and couple moment at point O. Suppose that F1 390 N and F2700 N. (Figure 1) measured counterclockwise from the negative x axis θ= 88.7 Correct Part C Determine the equivalent resultant couple moment about point O Figure Express your answer to three significant figures and include the appropriate units. Enter positive v counterclockwise and negative value if the moment is clockwise < 1of1...