Q1. Find the resultant of the given forces using the graphical method and analytical method and Compare the results
Q: Q1: Determined the magnitude F and it is direction, so the resultant of the four forces is…
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Q: Q/ Compute the angle (Theta) for th member (A), the resultant force of F and FB is directed…
A: Given:FA=8 kNFB=6 kN
Q: The bracket must support the four forces shown in figure. The magnitude of the resultant force is:
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Q: The force R is the resultant of the other three concurrent forces shown. The value of P is
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Q: The two forces shown act on the structural member AB. Determine the magnitude of P such that the…
A: Apply the conditions of equilibrium ∑Fx=Rx5cos40°-Fcos60°=Rcos70°…
Q: Each of the four forces acting at E has a magnitude of 33 kN. Determine the magnitude of resultant…
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Q: 26 kilo Newton force if the resultant of the two forces one which has shown in figure determine the…
A: given; resultant force(R)=26KN lets take other force F1 and F2
Q: Two forces act on the hook. Determine the magnitude of the resultant for?
A: The angle between the forces θ is 40 °. The magnitude of the forces are:
Q: A force system is shown consists of Couple C and four forces. If the resultant of this system is a…
A: Given Co-planar forces To find Magnitude of P, Q and C
Q: Q2: determine the value of F Which effect with other two forces as shown in Fig. if the Resultant of…
A: Given data Forces acting are 90lb, 50lb Resultant = 80lb
Q: QI/ If the resultant force acting on the bracket is directed along the positive y axis,
A: The given problem will be solved by resolving the given forces along x, y and z axis. As given that…
Q: lf the resultant of two equal forces is equal to either of them .Find the angle between the forçes.
A: The given data: The resultant of two forces = Either of the forces. We need to find the angle…
Q: Q1) For the concurrent coplanar force system shown below., do the following: 1) Calculate the…
A: To find the resultant of a concurrent coplanar system. At first we need to calculate the summation…
Q: 11 Find the resultant of forces if F
A: Need to find resultant of forces.
Q: Q1: The two forces shown act at point A of the bent bar. Determine the resultant R of the two…
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Q: Determine the magnitude and direction of the resultant of the forces shown using the triangle rule.
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Q: SOLVE FOR THE RESULTANT OF THE FORCES. (NOTE: ALSO CALCULATE 0) 150N BONK
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Q: Q1: Determine the resultant of the force system in next fig. Then locate this resultant with respect…
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Q: Find the representation of the force F, given that its magnitude 240N
A: Write the given data with suitable variables. F=240 N
Q: Use the analytical method to find the resultant and its direction of the forces shown in figure 1.
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Q: 2.9 How to determine forces if the given is the resultant?
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Q: Ql: The cable AB supports three vertical loads as shown in next figure. Compute the resultant of…
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Q: The distribution of loads in a simply supported beam is as given in Figure 2. a. Determine the…
A: Draw the free body diagram.
Q: Find the resultant of the following concurrent forces passing thru the origin and the following…
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Q: QI: The cable AB supports three vertical loads as shown in next figure. Compute the resultant of…
A: A cable with three downward forces is provided. Find the resultant of these forces, as well as its…
Q: alculate the magnitude of the force P1 so that the resultant force would be vertic
A: resultant will be vertical when there will be no horizontal component we will resolve the forces…
Q: Q1/ Determine the magnitude and direction of the resultant force in * :system below
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Q: Q1: Find the resultant force (R) of the two forces shown in Fig. below.
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Q: Find the magnitude, location and slope of the resultant of the force system shown below.
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Q: 2.26 Find the resultant of the two forces acting on the dam. Locate where the line of action of the…
A: The vector diagram is
Q: The two forces shown act at pointA of the bent bar. Determine the resultant Rof the two forces.
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Q: . Determine the magnitude (in N) of the force acting
A: Given: TO determine : Tension in cable at point C
Q: Include the given with the required quantities and draw the diagram, determine the resultant of the…
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Q: The resultant of the concurrent forces shown in the figure is 30O lb up along the Y axis. Compute…
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Q: If the value of the resultant forces is F and the angle θ is vertically upward, find the value of…
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Q: 2. Compute the resultant of the three forces acting on the plate shown in the figure. Locate its…
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Q: Three forces are applied to a bracket as shown. If the resultant R of these three forces is directed…
A: Consider the diagram shown below for the given system.
Q: The beam is subjected to the two forces shown. Determine the magnitude of the resultant force. E =…
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Q: Q2: determine the value of F Which effect with other two forces as shown in Fig. if the Resultant of…
A: Given data Forces acting are 90lb, 50lb Resultant = 80 lb
Q: Compute the value and the direction of the resultant of the concurrent forces shown in the figure.
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Q: 2. Compute the resultant of the three forces acting on the plate shown in the figure. Locate its…
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Q: 2 - Determine the resultant ( R) of the two forces shown in fig.
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Q: If R is the resultant of the forces P and Q, find P and Q.
A: If a force F is inclined at an angle θ with the horizontal, then the component of force along the…
Q: Q) Determine the resultant force and its direction for the forces system * .shown in the figure
A: Find Resultant force = ? Direction = ?
Q: Q1) For the concurrent coplanar force system shown below, do the following: 1) Calculate the…
A: The net resultant force in the vertical direction is The net resultant force in the horizontal…
Q: Q7. Determine the resultant force and angle of the forces as shown in figure by (components method…
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Q: Find the magnitude of resultant force
A: Given data: F1=2 kNF2=6 kN Need to determine the magnitude of the resultant.
Q: Q1: The cable AB supports three vertical loads as shown in next figure. Compute the resultant of…
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- Two tugboats are towing a cargo ship as shown below. Tugboat A exerts a force of 15,000N at 30° angle, while tugboat B exerts a force of 20,000N at 50° angle. Determine the magnitude and direction of the resultant force acting on the cargo ship. Solve the problem using component method. 30° 50Given are the following concurrent forces which are acting on one body: FA = 150 N; 60° FB = 200 N; 180° 1. Determine graphically their resultant by the use of (a) parallelogram method and (b) polygon method. Use the following scale: 20 N : 1 cm 2. Uusing the sine and cosine laws, compute the resultant of forces FA and Fg. 3. Find the magnitude and direction of the three given forces below using component method. DATA AND CALCULATIONS: F1 = 100 N; 30° F2 = 150 N; 60° F3 = 200 N; 180° Given:Q2 Use the analytical method to find the resultant and its direction of the forces shown in figure 1. 20 N 45 45 15 N 10 N Figure !
- Two forces are applied to a point as shown. The magnitude of 200 N the force F = 300 N. Use the parallelogram method or the triangle method (also known as tip-to-tail addition) to determine 105 the magnitude of the resultant force, and specify the resultant force's direction relative to the positive x-axis. 60The bucket of the excavator at a construction site is subjected to F = 1530 lb and F, = 790 lb digging forces at its tip. Determine the magnitude and direction of their resultant. Use the vector algebra and vector polygon methods. Compare the answers with the two methods to verify the accuracy of your work. (Express your answers using four and three significant figures, respectively. Report the direction as an angle between 0 and 180°, clockwise or counterclockwise.) R = lb v from i SelectA cleat on a boat is used to support forces from three ropes as shown. Determine the resultant force vector R, using Cartesian representation, and determine the magnitude R. Also express R in polar vector representation. Given: F = 600 N. y F2 = 200 N F1 F3 = 100 N 12 %3D 40° 30° The Cartesian representation of the resultant force is as follows: The magnitude of the resultant force is |N. The polar representation of the resultant force is as follows: R = N@ (Express the angle in the positive counterclockwise direction from the positive x axis.).
- Determine the magnitude and direction of the resultant of the following forces: 50 N at 50 degrees,60 N at 120 degrees,40 N at 220 degrees,30 N at 330 degrees. All angles are measure from the positive x-axis. Use the component method. Select one: a. 75 N: 42º b. 50 N: 87º c. 54 N: 87º d. 101 N: 89ºUse the law of sines and the law of cosines, in conjunction with sketches of the force polygons, to solve the following problems. Determine the magnitude of the resultant R and the angle e between the x-axis and the line of action of the resultant for the following: 300 lb 20° 350 lb 20° 30° 250 lb 30° 600 Ibhe maghitude and direction of the resultant according to the chosen scale. = 246 N, 255° Test yourself 3: 1. Two forces of 60 N and 8O N respectively act simultaneously at a point. F = 60 N Sketch and determine their resultant by using the following methods: a) tail-to-head 60° b) tail-to-tail (122 N 25 2. Two forces, F, and F, act at a point as indicated. a) Draw a sketch diagram to show the resultant force when angle 6 = 120. The angle is now decreased from 120° to 20°. F = 80 N F (The magnitudes of the forces remain the same.) b) Draw a new sketch diagram to show the new resultant. Compare the sizes of the resultants and write your conclusion. Forces in equilibrium A stationary object might have no forces acting on it. Forces on the object can also be balanced so there is a zero resultant In
- Use the law of sines and the law of cosines, in conjunction with sketches of the force polygons, to solve the following problems. Determine the magnitude of the resultant R and the angle e between the x-axis and the line of action of the resultant for the following: 20 kip 15 kip 45 40° 10° 10 kipUse the law of sines and the law of cosines, in conjunction with sketches of the force polygons, to solve the following problems. Determine the magnitude of the resultant R and the angle e between the x-axis and the line of action of the resultant for the following: 500 lb 700 lb 30° 55° 350 lbGiven the following sets of forces, determine the magnitude and direction of the resultant force using COMPONENT METHOD. Draw also the forces. F1= 40N at 50 degrees South of East F2=70N at 80 degrees South of West F3=50N at West F4= 60N at North