Determine the resultant R of the system of distributed loads and locate its line of action with respect to the left support for y 200 Ib/ft 150 Ib/ft 100 Ib/ft A B 3 ft 3 ft 3 ft
Q: Determine the resultant force and specify where it acts on the beam measured from A.
A: Consider the free body diagram shown below for the given beam.
Q: Q2/ Determine the horizontal resultants about A knowing that point A is fixed .support taking e=45
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Q: Represent the resultant of the force system acting on the pipe assembly by a single force R at A and…
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Q: 3. Determine the resultant of the three forces acting on the plate. Also, find the coordinates of…
A: 3. The resultant vector is R→=-50k→-200k→-150k→=-400k→ Moment about y is My=200×2=400 Moment about x…
Q: Determine the resultant of the force system in next fig. Then locate it with respect to point (A).…
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Q: Determine the resultant R of the force system
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Q: • A system of four forces acting at a point on a body is as shown in Fig. Determine the resultant.
A: TO FIND THE RESULTANT OF THE ABOVE FORCE SYSTEM:
Q: Replace the concurrent cable forces acting on the plate shown by a single resultant force R. Also,…
A: Given Data Coordinates of point A = (0,0,14) Coordinates of point B = (5,-6,0) Coordinates of point…
Q: The cable BC carries a tension of 750 N. Determine the projection of the tension on the line BO and…
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Q: Determine the resultant R of the two forces shown as below. y 60° 400 N
A: Given Data F1=600 N F2=400 N
Q: 2. Find and illustrate the resultant of the distributed and concentrated loads acting on the beam.…
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Q: The slab is to be hoisted using three slings shown. Determine the resultant force R and the point…
A: F1=6kF2=-(5cos45°×sin30°)i+(5cos45°×cos30°)j+5sin45°kF2=-1.7677i+3.062j+3.535kF3=(4cos60°)i+(4cos60°…
Q: y 360 mm 270 mm 50 N A 300 90 N
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Q: Determine the components of the 300-lb force directed down to the right at a slope of 2 (opposite)…
A: Given data: F=300 lb Need to determine the components of the force.
Q: From the figure above, determine the y-component of the Resultant Force if (a) is equal to 56N and…
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Q: Replace the concurrent cable forces acting on the plate shown by a single resultant force R. Also,…
A: Given Data: The coordinate of point B is (5,-6,0) The coordinate of point C is (-3,-3,0). The…
Q: Determine the magnitude of the resultant force at A.
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Q: Determine the resultant, both in magnitude and direction, of the four forces acting on the body as…
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Q: Determine the resultant of the system and its position from point A.
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Q: Determine all the forces acting on the cglinder at y-direction
A: The density of the cylinder is ρ. The height of the cylinder is h. The radius of the cylinder is r.…
Q: Determine the y-intercept of the resultant in kN. *
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Q: Determine the resultant R of the two forces shown as below. 60
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Q: Determine the resultant of the three forces shown. (18i-12j kN.m)
A: Writing the given forces in vector form as shown below, Taking upward z-direction as positive while…
Q: Determine the x-component of R (in Ib). *
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Q: Determine the resultant R of the two forces.
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Q: Solve it correctly determine the magnitude and direction of the resultant of the given concurrent…
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Q: Determine the resultant of three forces acting on the plate. Also, find the coordinates of the point…
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Q: If the resultant of the system equls 10 kN in the x-direction, determine the necessary values of 0…
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Q: Determíne the resultant R of the two forces shown by (a) applying the parallelogram rule for vector…
A: F.B.D.
Q: Find the value of the forces that make the horizontal component of the sum of the three converging…
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Q: Problem Number 1: In the given loaded beam determine the resultant force, R and its location from…
A: There is no horizontal force in given problem. Therefore horizontal component of resultant force is…
Q: Determine the resultant R of the two forces shown by (a) applying the parallelogram rule for vector…
A: a Given , P=600 NQ=400 Nθ=60°
Q: • A system of four forces acting at a point body is as shown in Fig. Determine the resultant. 120N
A: given F1=200NF2=120NF3=50NF4=100N
Q: If the resultant force of the two tugboats is 3kN, directed along the positive x axis , determine…
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Q: If the two tensions T1 = 200 - 400 N and T2 = 300 - %3D 500 N act at B, determine the resultant…
A: Given, T1=200-400 NT2=300-500 N The coordinates of the points, A0 m, 0 m, 0 mB0 m, -1 m, 2 mC6 m, 2…
Q: The portion of a bridge truss is subjected to several loads. For the loading shown, determine the…
A: Draw the free body diagram of the given truss.
Q: HW/Determine the resultant of coplanar force system of the fig ( ) and locate it with respect to…
A: All the forces acting on one plane is a coplanar force system with concurrent, non-concurrent,…
Q: Determine the magnitude of the resultant force of the two forces which are perpendicular to each…
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Q: Q) Determine the resultant force and its direction for the forces system * .shown in the figure
A: Find Resultant force = ? Direction = ?
Q: Determine the resultant force acting on the hook.
A: Hook position is assumed at origin 'O' of the 3d coordinate system. Forces acting on it are: F⇀1=500…
Q: Determine the resultant force and ere it acts on the beam measured
A: Given: TO determine: The resultant force and where it is acting
Q: : Determine the resultant of the force system in next fig. Then locate it with respect to point (A).…
A: from the above figure
Q: Reduce the force system into wrench. Determine the Resultant Force, pitch of the wrench and the…
A: Given: Force in x direction -20 N Force in y direction -15 N Force in z direction 0 Moment along x…
Q: QI(A) If the magnitude of the resultant force acting on the bracket is to be 80 lb directed along…
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Q: Determine the x-intercept of the resultant in kN. *
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Q: Determine the resultant of the line load acting on the beam.
A: The beam is under symmetric loading.
Q: Locate the amount and position of the resultant of the load acting about A.
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- Problem 1d: Find the resultant for this system of forces: 7 ft F₁-81 lb F₁-100 lb 3 ft 40%Addition of Vectors by Component Method Direction: Solve the given problem correctly Given : F₁ 200 N, 30° above +x F₂= 100 N, 45° above-x F3 = 150 N, -x F₁ = 220 N, 53° below +x Find: F (resultant force) Solution: Show your solution.The following concurrent forces are acting on a body in xy plane: A 300 lb pointing up to the right 30 degrees with x axis, 400 lb at 45 degrees with x axis acting up to the left, 200 lb down to the left at 60 degrees with x axis, 150 lb down to the right at 75 degrees with x axis and a 100 lb directly to the right. Determine the resultant force and its direction using graphical and analytical method. Pls show the solution, formula and free body diagram.
- Can I have the method in vector mathematics. In lifting a heavy box, a man uses a block and tackle attached to the bottom of an I beam at hook B. The man applies 195 N force to end A of the rope. Given: X1 : 2.943 m Z1 : 1.655 m Z2 : 4.167 m a.) Determine the value of Y1 if the z-component of the moment at the origin is 254.558 N·m b.) Determine the x-component pf the Force Vector F. c.) Determine the mass of the box. If you believe that there is no possible way to solve the problem, justify on why the problem is invalid.Determine the resultant of all parallel forces acting on the rocker arm. 4 ft 5 ft Select the correct response: 7 ft 50 lb 6 ft 4' 40 lb 20 lb 2' 3' 5' 60 lbHOME WORK 3 Determine the resultant force at A. for the figure below Hint : 1- Find the position of all points A,B,C (x, y, z) 2- Find FAR and FAC 3- Find |raR| and Iracl 4- Find FAR = F UAB and FAC = F UAC 5- Finally find R and a, B,Y 3m Fc= 500N FB= 500N 3m 5m 3m B 4m 2m 5m
- The following concurrent forces are acting on a body in xy plane: A 300 lb pointing up to the right 30 degrees with x axis, 400 lb at 45 degrees with x axis acting up to the left, 200 lb down to the left at 60 degrees with x axis, 150 lb down to the right at 75 degrees with x axis and a 100 lb directly to the right. Determine the resultant force and its direction using graphical and analytical method. Show solution, formula and the FBD and pls write legible4. Find the resultant of the concurrent force system shown. 4000 lb 30° 5000 lb 2000 lb 30° 1000 lb 3000 lbQ. 5 Find the resultant and its location w. r. t. point A for the force system given in the figure below- 50N 3 m 20 N 4 m 30N
- 2- The body on the 30° incline as shown below is acted upon by a force P inclined at 20° with the horizontal. If P is resolved into components parallel and perpendicular to incline and the value of the parallel component is 1800 N, compute the value of the perpendicular component and that of P. P 20° 30°Q5: Determine the (magnitude and direction) of the resultant (R) of the forces system as shown in Figure below:Resolve the 360-lb force into components along the cables AB and AC. Use =60 and =40.