4-55. Determine the moment of the force F about an axis extending between A and C. Express the result as a Cartesian vector. 4 ft 3 t IC 2 ft AF (4i + 12j - 3k) Ib
Q: 4-55. Determine the moment of the force F about an axis extending between A and C. Express the…
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Q: 4-7. If the moment produced by the 4-kN force about point A is 10 kN m clockwise, determine the…
A: Beams: The structural members that have uniform cross-sectional areas throughout their length are…
Q: 4-39. Determine the resultant moment produced by the two forces about point 0.Express the result as…
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Q: *4-24. The towline exerts a force of P = 4 kN at the end of the 20-m-long crane boom. If x = 25 m,…
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Q: *4-16. If the man at B exerts a force of P = 30 lb on his rope, determine the magnitude of the force…
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Q: 4-10. If Fg 30 lb and Fe 45 lb, determine the resultant moment about the bolt located at A. 0.75 ft…
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Q: 4-7. If the moment produced by the 4-kN force about point A is 10 kN m clockwise, determine the…
A: Concept Of Mechanics Used
Q: 4-39. Determine the resultant moment produced by the two forces about point O. Express the result as…
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Q: P3-4. set up the determinant needed to find the moment of the force about the a-a axes. (2 m- 2 m 4…
A: Calculate the unit vector along the axis a-a
Q: 4-11. The member is subjected to a force of F 6 kN. If 0 45°, determine the moment produced by F…
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Q: F4-7. Determine the resultant moment produced E forces about point O. 500 N 300 N (45° 2,5 m
A: GIVEN:
Q: *3-68. Determine the required magnitude of F. F, and F, so that the resultant couple moment is (M.)R…
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Q: F4-5. Determine the moment of the force about point O. Neglect the thickness of the member. 50 N 100…
A: It is required to determine moment about point O
Q: 3-27. Determine the moment of the force F about point P. Express the result as a Cartesian vector.…
A: About point P, The abscissa (x-direction) is -2 m, the ordinate (y-direction) is -3 m and the…
Q: 4-7. If the moment produced by the 4-kN force about point A is 10 kN m clockwise, determine the…
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Q: Q4/ Determine the moment of the force F about AC axis and about BC axis Express the results as a…
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Q: F4-5. Determine the moment of the force about point O. Neglect the thickness of the member. 50 N 100…
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Q: 4-10. If Fy 30 lb and Fe = 45 lb, determine the resultant moment about the bolt located at A. %3D…
A: GIVEN DATA - A FORCE SYSTEM GIVEN WE HAVE TO FIND MOMENT ABOUT POINT-A
Q: 4-7. If the moment produced by the 4-kN force about point A is 10 kN m clockwise, determine the…
A: Resolving all forces in horizontal and vertical components, Px=Acosθ Py=4sinθ as given in…
Q: 4-39. Determine the resultant moment produced by the two forces about point 0.Express the result as…
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Q: 4-39. Determine the resultant moment produced by the two forces about point O. Express the result as…
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Q: 4-55. Determine the moment of the force F about an axis extending between A and C. Express the…
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Q: The curved rod lies in the x-y plane and has a radius of 3 m 3 m 3m 45 1m 2 m If a force of F= 94 N…
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Q: P3-3. determine the resultant moment of the forces acting about the x, the y, and the z axis. 100 N…
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Q: 3-29. Determine the moment of the force F about point P. Express the result as a Cartesian vector.…
A: Given Data: The force is F→=-6i+4j+8k The coordinate of point A is (1,-2,6) The coordinate of point…
Q: 4-7. If the moment produced by the 4-kN force about point A is 10 kN ·m clockwise, determine the…
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Q: 4-57. Determine the moment of this force F about an axis extending between A and C. Express the…
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Q: 4-55. Determine the moment of the force F about an axi extending between A and C. Express the result…
A: Given Data Force is :F=4i+12j+3k Now the vector rCB is calculate as…
Q: 4-55. Determine the moment of the force F about an axis extending between A and C. Express the…
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Q: 4-61. Determine the magnitude of the moment of the force F= {50i – 20j - 80k} N about the base line…
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Q: 4-7. If the moment produced by the 4-kN force about point A is 10 kN m clockwise, determine the…
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Q: 4-55. Determine the moment of the force F about an axis extending between A and C. Express the…
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Q: 4-29. Determine the coordinate direction angles a, B, y of F, which is applied to the end A of the…
A: The coordinates of the points O 0,0,0 inA 6,14,10 in F=20 lb
Q: 4-57. Determine the moment of this force F about an axis extending between A and C. Express the…
A: The moment of force F about axis AC is required to be calculated. For this vector AB is first…
Q: 4-7. If the moment produced by the 4-kN force about point A is 10 kN m clockwise, determine the…
A: Given Data F=4 kN M=10 kN.m (clockwise)
Q: 4-39. Determine the resultant moment produced by the two forces about point O. Express the result as…
A: If the coordinates of two points are given as Ax1,y1,z1 and Bx2,y2,z2 then the position vector for…
Q: Determine the moment of the force F = {50i - 40j + 20k} lb about the AB axis. Express the result as…
A: Given Data: The given force is F = (50i-40j+20k) lb. The coordinate of point A is (4,0.0) The…
Q: Determine the magnitude of the moment of the 200-N force about the x axis. Solve the problem using…
A: The position vector of line OA is, OA→=0-0 m i^+(0.3-0) m j^+(0.25-0) m k^=.3m i^+0.25m k^ The force…
Q: 4-55 Determine the moment of the force F about an axis extending between A and C. Express the result…
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Q: 4-55. Determine the moment of the force F about an axis extending between A and C. Express the…
A: Coordinates of A(0,0,0) C(4,3,0) C=4i+3j+0k AC=4i+3j…
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…
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Q: 4-31. Determine the moment of the force F about point P. Express the result as a Cartesian vector. P…
A: the product of the distance between the location and the place where the force is applied and the…
Q: 4-98. Determine the resultant couple moment of the two couples that act on the pipe assembly. The…
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Q: P3-1. determine the moment of the force about point O. 100 N 3 m 2 m
A: Moment = Force (Perpendicular direction)
Q: 4-33. The pipe assembly is subjected to the force of F = {600i + 800j – 500k} N. Determine the…
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Q: 4-60. Determine the magnitude of the moment produced by the force of F = 200 N about the hinged axis…
A: The position vector for OA is OA=2.5i+cos15j+sin15k=2.5i+0.9659j+0.2588k The position vector for OB…
Q: 4-51. Determine the moment of the force F about the Oa axis. Express the result as a Cartesian…
A: Given data Force vector(F) = {50î -20ĵ +20k̂} Position vector of point O (r) = î -2ĵ + 6k̂ Moment of…
Q: F3-17. Determine the F = [50i – 40j + 20k} kN about the AB axis. Express the result as a Cartesian…
A: Given Data: The given force is F→=50i-40j+20k kN The coordinate of point A is (4,0,0). The…
Q: F4-1. Determine the moment of the force about point 0.
A: Given data Force (F) = 600 lb
Q: F3-24. Determine the couple moment acting on the pipe assembly and express the result as a Cartesian…
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- Prove the relation that Hammer blow = ± mb x r*x ω2 where mb = Balancing mass placed at a radius of r* and ω= angular speed of the crank.If the body AB rotates counterclockwise with an angular velocity oa = 6 rad / s, find the angular velocity of the BC rod and the velocity of the C block at the moment shown in the figure below. The BC bar is horizontal at the moment shown.At the top A of the vehicle moving along line AC in the figureIts speed is 30 m / sec and its weight is 9 kN.Tool radius of curvature 40The reaction force to the tires when reaching point B, which is m,and so that the tires do not separate from the asphalt when it reaches point CWhat should be the radius of curvature of point C? (hA = 6 m andhC = 9 m)
- The equatorial radius of the earth is 2.0925(10^7 ) ft, and the polar radius is 2.0856(10^7) ft. Determine the gravitational acceleration g at the two locations.At the instant shown, perform the following tasks using the individual values of lengths OA, AB, BC, OE, CE, L, H, angle ?, angular velocity ???, mass ???, and moment of inertia ???. Length of the walking beam BD is equal to 2·BC. Distance CG from point C to the centre of mass of the walking beam is equal to ??/ 5. Dynamic Forces Analysis : • Present a clearly labelled free body diagram for each rod and the slider; • Calculate the magnitudes and directions of all reaction forces at the instant shown using accelerations obtained in acceleration analysis part; • Calculate the instantaneous torque, T, required to drive the mechanism at the instant shown.In the figure shown, the hydraulic cylinder moves upwards with a constant speed of Va=0.2 m/s, transferring vertical movement to corner A of the container. If bearing b never slips and has a diameter of 8 cm, determine the angular velocity of the imaginary line drawn from its axis of rotation to any point on its periphery. Determine the angular velocity of side CD at this moment.
- A 1-m-long uniform slender bar AB has an angular velocity of 12 rad/s and its center of gravity has a velocity of 2 m/s as shown. About which point is the angular momentum of A smallest at this instant? P1 P2 P3 P4 It is the same about all the points.If the rod AB rotates counterclockwise with angular velocity, ω AB =8rad / s Calculate the velocities of the blocks C and D at the moment shown in the figure below.The constant tensions of 200 N and 160 N are applied to the hoisting cable as shown. If the velocity v of the load is 2 m∕s down and the angular velocity ? of the pulley is 8 rad∕s counterclockwise at time t = 0, determine v and ? after the cable tensions have been applied for 1.5 s. Note the independence of the results.
- Find the angular acceleration of bar BC for the moment indicated in the diagram. Bar AB has a constant clockwise angular velocity of 5.3 rad / s and the dimensions are as follows: x1 = 13 m, x2 = 20 m, y1 = 16 m, y2 = 19 m.At the moment shown in the figure, it is known that the rod in the vertical direction moves downward with a speed of v=0.8 m/s ederken and has an acceleration = 1.2 m/s2 upward. At this moment in question: a. The angular velocity of the AB rod, b. Bis the speed of the sliding bearing. c. The angular acceleration of the AB rod, d. Find the acceleration of B sliding bearing. Note: Take the R as 0.4m.The collars ܣ and ܤ are joined by the 8-in. bar. Given that Va=0.3 m/s and aA= −0.6 m/s^2 when x=90mm, find the velocity and acceleration of B at this instant.