F3-28. Replace the loading system by an equivalent resultant force and couple moment acting at point A. 100 N IT 0.1 m 50 N -0.3 m- + 0.3m- 150N
Q: Replace the force and couple system acting on the member shown by an equivalent resultant force and…
A:
Q: Replace the three forces acting on the plate by a wrench. Specify the magnitude of the force and…
A: Given FA = 400i N FB = -300k N FC = 200j N To find Replacement of three forces
Q: F4-27. Replace the loading system by an equivalent resultant force and couple moment acting at point…
A:
Q: 3-78. Replace the force system acting on the post by a resultant force and couple moment at point A.…
A: Determine net horizontal and vertical forces Magnitude of Resultant force can be determined as
Q: F3-33. Replace the loading by an equivalent resultant force and specify where the resultant's line…
A: Let the line of action of equivalent resultant force be at x from A as shown below – The equivalent…
Q: F3-4. Determine the moment of the force about point O. 50 N -100 mm- 60° 200 mm 45° -100 mm-
A: Draw the vector resolution of the force.
Q: Replace the two forces acting on the pole by a wrench. Write the force R and moment Massociated with…
A:
Q: F3-25. Replace the loading system by an equivalent resultant force and couple moment acting at point…
A: Resolving the inclined load into horizontal and vertical loads: Freebody diagram:
Q: F3-10. Determine the moment of force F about point O. Express the result as a Cartesian vector. F =…
A: Co-ordinates are A(0,3,0) B(4,0,0) O(0,0,0) Now Unit vector AB can be determined
Q: Determine the required magnitude of force F if the resultant couple moment on the frame is 200 N.M,…
A: Given, Net resultant couple on the frame , M =200 N-m
Q: F4-1. Determine the moment of the force about point O. 100 N 2 m |0 5 m F4-1
A:
Q: F3-14. Determine the magnitude of the moment of the force F = (300i – 200j + 150k} N about the OA…
A: The position vector of A is, The position vector of B is, The vector representing the line AB is,…
Q: F3-41. Determine the resultant force and specify where it acts on the beam, measured from A. 6 kN/m…
A: Given Data: The trapezoidal load distribution varies from w1 = 6 kN/m to w2 = 3kN/m. The…
Q: *3-68. Determine the required magnitude of F. F, and F, so that the resultant couple moment is (M.)R…
A:
Q: F3-21. Determine the magnitude of F so that the resultant couple moment acting on the beam is 1.5 kN…
A: Given data: The resultant moment acting on the beam is 1.5 kNm (clockwise is taken as positive)…
Q: *3-16. The cable exerts a force of P = 6 kN at the end of the 8-m-long crane boom. If 0 = 30°,…
A: Given data: Force exerted by cable, P = 6kN Length of the crane boom, L= 8 m Now since one of the…
Q: D FDA= 3.5 kN, 9 m FDB= 2.5 kN FDc= 3.0 kN B 4.5 m 3 m 3 m 3 m A - 30°
A: Given data: The value of force in the cable DC is, FDC=3 kN. The value of force in the cable DA is,…
Q: Determine the required load w and dimension d of the right support so that the resultant force and…
A: The free body diagram of the beam is as follows:
Q: 3-89. Replace the force system acting on the frame by an equivalent resultant force and specify…
A: Let the line of action of equivalent resultant force be at x from A as shown below – The equivalent…
Q: The hood of the automobile is supported by the strut AB, which exerts a force of F = 24 lb on the…
A:
Q: F4-11. Determine the moment of force F about point O. Express the result as a Cartesian vector. F=…
A:
Q: F4-5. Determine the moment of the force about point O. Neglect the thickness of the member. 50 N 100…
A:
Q: F3-13. Determine the magnitude of the moment of the force F = {300i – 200j + 150k} N about the x…
A: The force vector, The position vector,
Q: The wrench is subjected to the 200-N force and the force P as shown. If the equivalent of the two…
A:
Q: F4-L Determine the moment of the force about point O. 100 N 2m -5 m- Prob. F41
A: Dear student, According to the guidelines I am allowed to answer only one…
Q: F4-8. Determine the resultant moment produced by the forces about point O. 0Ahi Ja ll ll la l F =…
A:
Q: 3-55. Determine the required magnitude of force Fif the resultant couple moment on the frame is 200…
A: Given data Resisting moment at A M A = 200Nm (clock wise) To determine the required magnitude of…
Q: F4-39. Determine the resultant force and specify where it acts on the beam measured from A. 6 kN/m B…
A:
Q: F4-22. Determine the couple moment acting on the beam. 10 kN 4 4 m 1 m A B 1 m 3 45 10 kN
A: Given data as per question Force =10 KN Calculating the θcosθ=45θ=cos−1(45)=36.8690We know…
Q: Replace the force system by an equivalent resultant force and couple moment at point O. Take F3 =…
A: Part A: (FR)x, (FR)y, (FR)z = -200 N, 600 N, -550 N. Part B: (MR,o)x, (MR,o)y, (MR,o)z = -1100 N-m,…
Q: F3-29. Replace the loading by an equivalent resultant force and couple moment acting at point O. F,…
A: Given, Force acting at point B, F1=-300 i^+150 j^+200 k^ Force acting at a point C, F2=-450 k^
Q: P3-5. In each case, determine the x and y components of the resultant force and the resultant couple…
A: Given,
Q: F4-2. Determine the moment of the force about point o. F- 300 N 30 03m 0.4m- Prob. F4-2
A: It is required to determine moment about point O
Q: F3-19. Determine the resultant couple moment acting on the beam. 400 N 400 N 200 N 0.2 m 200N -3m…
A: Given, Here in the figure MA is the resultant couple moment about A.
Q: Replace the force system acting on the pipe assembly by a resultant force and couple moment at point…
A:
Q: F3-27. Replace the loading by an equivalent resultant force and couple moment acting at point A. 900…
A: Draw the diagram of the above beam. Apply the equilibrium in vertical direction. ΣV=900 Ncos30°+300…
Q: F3-30. Replace the loading by an equivalent resultant force and couple moment acting at point O. F =…
A: F1=130 N F2=190 N Mc=75 N-M Mc→=-75 i⏞ A =0i⏞+.5j⏞+.3k⏞ B=-.4i⏞+.5j⏞+0k⏞ F1=-130j⏞ F2=|F2|.UAB…
Q: Determine the required magnitude of F1, F2, and F3 so that the resultant couple moment is (Mc)R =…
A: Determine the required magnitude of F1, F2, and F3 for the above figure so that the resultant…
Q: P3-5. In each case, determine the x and y components of the resultant force and the resultant couple…
A: Applying force balance in vertical direction, ∑FV=0RO+RB=400 N+500 N×35RO+RB=700 N......1 Here, RO…
Q: F4-14. Determine the magnitude of the moment of the force F = {300i – 200j + 150k} N about the OA…
A: Ans. A→= 0.3 i + 0.4 i + 0 th B→ = 0.3 l + 0.45-0.2 k AB→= B→-A→= oi+oj-…
Q: The magnitude of the moment of the force F=300i-200j+300k N about the y-axis is. 0.3 m 0.4 m 0.2 m…
A:
Q: Determine the moment of the force about point 0. Neglect the thickness of the member. 50N 100mm- 200…
A:
Q: F4-19. Determine the resultant couple moment acting on the beam. 400 N 400 N 200 N ]0.2 m 200 N 3 m…
A:
Q: Q.3 Replace the force system acting on the member by a force and couple moment at point O. y 20N 30°…
A:
Q: P3-5. In each case, determine the x and y components of the resultant force and the resultant couple…
A:
Q: FL4 Determine the moment of the force ahout point O. S00N Prob. F4-6
A:
Q: F44. Determine the moment of the force about point O. Neglect the thicknes of the member. SO N 100…
A: Resolve the component of 50N force
Q: Replace the loading system by an equivalent resultant force FR and couple moment MR, acting at point…
A: for the given arrangement Net force (FR)x in x-direction acting at A will be (FR)x = Fx…
Q: 4-143. Replace this loading by an equivalent resultant force and specify its location, measured from…
A:
Q: E3-20. Detemine the resultant couple moment acting on the triangular plate. 200 N 150 N 0.4 m 04 m…
A:
Trending now
This is a popular solution!
Step by step
Solved in 3 steps with 1 images
- Determine the required magnitude of F1, F2, and F3 so that the resultant couple moment is (Mc)R = [50i - 45j - 20k] N ⋅ m.The magnitude of the triangular distributed load is w0 = 2 kN/m. Determine the internal forces and moment at A.The jib crane supports a load of 750 lb from the trolly which rides on the top of the jib. Determine theinternal normal force, shear force and moment in the column at point D when the trolley is at the positionshown in figure 8. The crane members are pinned together at B, E and F and supported by a short link BH.
- Determine the smallest force F that must be applied along the rope in order to cause the curved rod to fail at the support A. This requires a moment of M = 1700 N⋅m to be developed at A.117 The right-angle pipe OAB of Prob. 2/99 is shown again here. Replace the 750-N tensile force which the cable exerts on point B by a force-couple system at point O. Ans. R --5981 + 411j + 189.5k N Mo = -361i - 718j + 419k N m 1.2 m C 1.6 m 0.7 m 30 0.8 m Problem 2/117 2/118 In an afteThis time replace the loading on the beam by an equivalent resultant force only (F'R=?) and specify where this force acts, measured from C(x'=?).
- The bent rod is supported at points A, B and C by smooth journal bearings, and is subjected to force F. If dimensions a = 2.3 m, b = 1.5 m, c = 0.6 m, and d = 2.5 m, and the force F is {-2i + 9j - 3k} kN, determine the magnitude of the moment (in kN⋅m) caused by force F about point A. Answer must include 2 places after the decimal point.2a. If the load intensities w1=82 N/m, w2=176 N/m, and w3=102 N/m, determine the total moment (in N*m) caused by all these applied distributed forces about point A. Take counterclockwise as positive. Answer must include 1 place after the decimal point. 2c. Find out all of the support reactions components if applicable.Given the indeterminate frame, solve the shear and moment diagram of theframe using the portal method.
- 1) determine the normal force at point D (ND) 2) determine the shear force at point D( Vd) 3) determine the moment at point D( Md)Determine the couple moment acting on the beam show.(a) Replace the force F=2800i+1600j+3000klb acting at end A of the crank handle with a force R acting at O and a couple-vector CR. (b) Resolve R into the normal component P (normal to the cross section of the shaft) and the shear component V (in the plane of the cross section). (c) Resolve CR into the twisting component T and the bending component M.