Q4'The forces FI, F2, and F3, all of which act on point A of the bracket, are specified in three different ways. Determine the x and y scalar components of each of the three forces. (25 Marks) F-500 N F = 600 N 35 0.1 m -0.2 m- 0.3 m F 800 N BY 0.4 m
Q: (Q1) (a) Replace the system shown below by a vertical force at D and horizontal force at A and…
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Q: The cable AB prevents bar OA from rotating clockwise about the pivot O. If the cable tension is 800…
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Q: Q1: The 700 N tension force in cable AB is required to prevent the CA bar from rotating clockwise.…
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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: Write the coordinates of point D. 0, 0, 9 Write the coordinates of point A. 3sin30°, 3cos30°,…
Q: 2/88 If the resultant of the forces shown passes through point A, determine the magnitude of the…
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Q: Determine P and θ so that the three forces shown are equivalent to the single force Rx = 87.32 kN.…
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Q: Practice Problem 3.4.7: The resultant of the three forces is the force R =-170j kN acting through…
A: Here,θ=tan-1(34)⇒θ=37ο
Q: Q3/ Replace the two forces acting on the bent pipe by a single equivalent force R. Specify the…
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Q: Q3( , - Determine the resultant of forces system shown in Figure with its direction and locate it…
A: To find : The resultant of forces, direction and location from point C. FBD: The FBD of resultant…
Q: The distributed load acts on the beam as shown. Determine the magnitude of the equivalent resultant…
A: w= -2x2 + 4x + 16 x= 0 to 4 ft
Q: The cable AB prevents bar OA from rotating clockwise about the pivot O. If the cable tension is 650…
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Q: Replace the three forces acting on the shaft by a single resultant force. Suppose that F1 = 650 lb…
A: Given data as per the question F1 = 650 lb F2 = 400 lb F3 = 260 lb . calculating the horizontal…
Q: 4 - The horizontal component of the force (F ) is ( 60 N ) to the right through the original point .…
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Q: Q1: The 750 N tension force in cable AB is required to prevent the CA bar from rotating clockwise.…
A: Given Data: The tension in the cable AB is T = 750 N. The configuration diagram can be drawn as,…
Q: The 84-m microwave transmission tower is steadied by three guy cables as shown. Cable AB carries a…
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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: Practice Problem 3.4.7: The resultant of the three forces is the force R =-170j kN acting through…
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Q: Q3/ Replace the two forces acting on the bent pipe by a single equivalent force R. Specify the…
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Q: The 90-m microwave transmission tower is steadied by three guy cables as shown. Cable AB carries a…
A: Given data: F=11 kN Need to express the force in vector form.
Q: 2 Ir the resutant force acting on the support is to he 1200 h directed horieentally to the right,…
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Q: Q: The cable AB prevent bar OA from rotating clockwise about the pivot O. if the cable tension 750 N…
A: Given data: T = 750 N Need to determine the normal and tangential component of the tension.
Q: /88 If the resultant of the forces shown passes through point A, determine the magnitude of the…
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Q: Q5: The forces FI-6 kN, F2- 5 kN, and F3-8 kN as shown in the Figure all of which act on point A of…
A: givenF1=6kN=6000NF2=5kN=5000NF3=8kN=8000N
Q: Determine the re forces about point Oof the F = 500 N 0.125 m, 0.3 m- 60 0.25 m F 600 N
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Q: The cable AB prevents bar OA from rotating clockwise about the pivot O. If the cable tension is 890…
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Q: Q4- If the magnitude of the resultant force is to be 200 N, directed along the negative y axis,…
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Q: F1 300 N 400 N 4 |3 30° \5 60°
A: Givensystem of forces
Q: Determine the resultant R of the system of distributed loads and locate its line of action with…
A: The net force acting on the beam, Answer: The net resultant on the beam is 1875 lb.
Q: 6 - The Y - component of the force ( F) which a person exerts on the handle of the box wrench is…
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Q: Q3- Resolve the 5200 N force into two components along u and v axis 5200 N 20 3/5 10 28 V
A: Given , Force , F =5200 N Angle of inclination of U and V axis with the vertical and the…
Q: 275 N 1600 N '0.5 -1.5 m- 1.8 m m 300 N A 1.25 m B 50° 0.6 m T2
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Q: Q.3- If = 30°If and F1 = 250 lb, determine the magnitude of the resultant force act- ing on the…
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Q: DETERMINE THE MAGNITUDE RESULTANT OF THE THREE CABLE TENSIONS THAT ACT ON THE HORIZONTAL BOOM IF T1=…
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Q: Q4/ The 1800-N force F is applied to the end of the I-beam. Express F as a vector using the unit…
A: Dear student, as per the guidlines I am entitled to give you the solution of your first question…
Q: Problem 3 w2 kN/m 7x kN/m From the figure, w1=9kN/m, w2=13KN/m 1. Find the resultant of the forces…
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Q: Q3 / The rectangular plate is supported by hinges along its side BC and by the cable AE. If the…
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Q: Determine the magnitudes of FA and Fg so that the resultant force passes through point O of the…
A: Given DataFR=FA+FB+8+6 FA=?FB=?
Q: If the resultant of the four forces is FR = (-363k} lb, determine the tension developed in each…
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Q: Q3/ Replace the two forces acting on the bent pipe by a single equivalent force R. Specify the…
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Q: Using the same figure, determine the components of force F along X-Y axes which are parallel and…
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Q: Replace the force system acting on a plate by a single force and determine where the line of action…
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Q: The cable AB prevents bar OA from rotating clockwise about the pivot O. If the cable tension is 760…
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Q: If x=3.5 m find the resultant of the force system shown in fig ?and located w.r.t. point A 300 kN…
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Q: Q1: The 800 N tension force in cable AB is required to prevent the CA bar from rotating clockwise.…
A: Given data Tension force in cable AB (F) = 800 N
Q: The convergent system of 4 forces acting on an absolutely rigid body is balanced (ΣFKY = 0).…
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Q: 4 - The horizontal component of the force ( F ) is ( 60 N) to the right through the original point .…
A: Given data: - The horizontal component of the force F is Fh = 60 N.
Q: If x=3.5 m find the resultant of the force system shown in fig and * ?located w.r.t. point A 300 kN…
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Q: 3- Determine the resultant of the forces which shown in figure. Ja E F,87 N F, 123 N 9/r F 234 N F,…
A: We are suppose to solve only one question. Please post other question as a separate question.
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- Fc = 5 kN 3m F = 8 KN F₁ = 6 kN 0.75 m 1. The cylindrical plate is held by the three wires connected at point D. Determine the resultant force.Q3/ Two forces are applied to the construction bracket as shown. Determine the angle e which makes the resultant of the two forces vertical. Determine the magnitude R of the resultant. Use the parallelogram law. F1 = 800 lb y F2 = 425 lb %3D 702/88 If the resultant of the forces shown passes through point A, determine the magnitude of the unknown tension T which acts on the braked pulley. 275 N 1600 N '0.5 1.5 m 1.8 m -300 N 1.25 m B. 50 0.6 m T2 650 N REDMI NOTE 9 PRO AI QUAD CAMERA
- y F3 F2 30 F1 Q3- Resolve each of the forces F1 = 10 kN, F2 = 18 kN and F3 = 12 kN, into components acting along the x and y directions and determine the following: (a) The magnitude of FR is . kN (b) The direction of FR measured from the x-axis is (degrees) ..........Q1: The two forces shown act at point A of the bent bar. Determine the resultant R of the two forces. F; = 3 kaips 300 F=7 kips 45° L.From the given set of forces shown, the three forces acting on the beam can be replaced with a single equivalent Force R. Determine the following: 25EN Pz - 4OKN P3 = 80 KN P, = 500 40 4m Com a. The x-component of the resultant force? b. The magnitude R. c. The corresponding value of e.
- As shown in the image below, the rigid member ACB (with negligible thickness) is subjected to three forces. The forces are F1=340N, F2=360N, and F3=170N, an the angles Alpha=34 degrees and Beta=57 degrees. Replace these forces by a single resultant force, then determine the distance x(in m) where its line of action intersects segment AC, measured from point A. Answer must include 2 places after the decimal point.Determine the magnitude and direction of the resultant of the concurrent forces described below. Draw the necessary figure. F1= 300 lb, up to the right, 45 degree with respect to positive x-axis F2= 400 lb, up to the left, 60 degree with respect to x-axis F3= 200 lb, down to the left, 30 degree with respect to x-axisQ3/ Two forces are applied to the construction bracket as shown. Determine the angle 0 which makes the resultant of the two forces vertical. Determine the magnitude R of the resultant. Use the parallelogram law. F,= 800 lb y F,= 425 lb 70
- Q3/ Two forces are applied to the construction bracket as shown. Determine the angle e which makes the resultant of the two forces vertical. Determine the magnitude R of the resultant. Use the parallelogram law. F, = 800 Ib y F= 425 lb 70Q4b. Force vectors F1 and F2 act on body Pwith the resultant force vector R. The resultant force R= 575 N and the angle between Rand the x-axis is of 320. If F1 = 275 N and the angle between F1 and the x-axis is 560, determine the angle between F2 and the x-axis. *Assume coplanar vector forces and give your answer in degrees to two decimal places. Body, P Answer: y F1 R F2The horizontal top of a concrete column is subjected to the system of forces shown. Represent the resultant of all forces as a force R at point O and a couple M. Also specify the magnitudes of R and M. 5 kN 0.5 m 3 kN 0.5 m 3 kN 0.5 m 2 kN 0.2 m 3 kN 1 kN 1 kN 2 kN Fozm 0.2 m 0.2 m Answers: R = ( i i+ i j+ i k) kN M = ( i i+ i j+ i k) kN-m R = i kN M = kN.m