4. Find the resultant of the three forces acting on the square plate. 70 lb 10 lb 0.75 ft 0.75 ft 60 lb 6 ft 6 ft
Q: Q2: Determine the resultant of the force system in next fig. Then locate it with respect to point…
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Q: At what angle 0 must the 400-N force be applied in order that the resultant R of the two forces have…
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Q: Q243 For the force system shown in figure C24); determine The magnitude and location of the…
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Q: Get the resultant of the following forces. A = 245 N, east B = 175 N, 30° southeast
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Q: 300 lb 200 lb 400 lb 60° 30". 45 50 lb 100 lb
A: Given Data To determine Resultant force and its angle from horizontal axis
Q: The resultant of the three concurrent forces acting on the eyebolt is the force R = 600j lb.…
A: Given Resultant R = 600J lb Load = 800 lb To find Angle θ Magnitude of P
Q: Q2- Determine position of the resultant of the four parallel forces acting on the rocker arm of the…
A: Resultant force is R=50-40-20+60=50 N (Downward) Moment acting about point O is…
Q: Compute the resultant of the three forces acting on the plate shown. Locate its intersection with AB…
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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: Y F 60° X-
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Q: QI/For the force system shown ,find the magnitude of angle O so that the resultant force directed…
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Q: Q.7. Determine the resultant R of the two forces shown as below. 60° 400 N
A: We will be using parallogram law to calculate the resulant: It states that that when two vectors…
Q: Find the two components of the force ( 100 N ) if :0= 30° &120° , as shown in the figure.
A: Given data: The magnitude of the force, F = 100 N. Part (a) Calculate the horizontal component of…
Q: 60° 500 pd
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Q: 3. Find the resultant and the location of the following parallel force system. A150 lb solb 75b. (lo…
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Q: y 360 mm 270 mm 50 N A 300 90 N
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Q: 4. Find the resultant of the forces system shown in Fig. 1.9(a). 60ON BOON 20 40 30 200N
A: Static Equilibrium: A body is said to be in static equilibrium if it follows three conditions The…
Q: The force R is the resultant of the forces P1, P2, and P3 acting on the rectangular plate. Find P¡…
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Q: 4. Determine the resultant force, FR, and its distance from D. 600 lb 800 lb FY 800 lb 30° 60° 60°…
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Q: Find the resultant force of the following? B F3 = 700 N 6 m 2 m7 F = 400 N 3 m F2 = 800 N
A: Resultant force needs to be calculated
Q: Find the resultant of the two forces ?shown in fig using cosine and sine laws 14 kN 30 8 kN
A: Given dataForce F1 = 14kN @300 to horizontal towards leftForce F2 = 8kN towards rightTo determine…
Q: Two forces of 100 N and 150 N are acting simultaneously at a point. What is the resultant of these…
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Q: Q: Represent the resultant of the three forces and one couple by an equivalent force R at A and a…
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Q: 2.1(b) Find the resultant force for each system of forces shown. 220 N 180 N X- Y (b)
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Q: At what angle 6 must the 400-N force be applied in order that the resultant R of the two forces have…
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Q: 25 lb 12 lb 30°
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Q: Determine the resultant of the following forces: A = 600 N at 40 degrees, B = 800 N at 160 degrees…
A: To find resultant
Q: The force R is the resultant of the other three concurrent forces shown. Force F = 200 lb and T =…
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Q: Given the forces A and B. Determine the Resultant, it's direction, and its location. Y A=200 lb 4 4…
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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: Find the magnitude of two concurrent forces which conform to the following da angle between the…
A: Given: Angle between the forces = 75oAngle between the resultant and one of forces = 45o Magnitude…
Q: The resultant of the three concurrent forces acting on the eyebolt is the force R = 600j lb.…
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Q: Q: Determine the resultant of the force system shown in Fig. (1) and locate it with respect to point…
A: Given Forces 7 kN, 40 kN and 36 kN Moment 80 kNm To find Resultant of the force Location of…
Q: The resultant of the two forces, when they act at an angle of 60° is 14 N. If the same forces are…
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Q: Given the forces: A = 2m, North B = 3m, South C = 5m, East Determine the Resultant: 1. B + C…
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Q: Find the Resultant force for the following system. 10. 15 kN 35 20 kN 30 25 kN
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Q: 20 F. 30
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Q: Find the resultant of the concurrent co-planar forces ?system as shown in fig 6200 lb 3800 lb 4000…
A: When all of the forces acting on an object are equal, the thing is said to be in equilibrium. If the…
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: A 60 N force acting at 30 east of north and a second 60 N force acting in the direction 60 west of…
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Q: What is the location of the resultant from point O for the parallel force system shown?
A: It is required to determine resultant force and it's location from O
Q: Find the resultant of two forces equal to 50N and 30 N acting at an angle of60°
A: Given Forces F1= 50 NF2= 30 NAngle = 60 To find Resultant
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: min the X- and y-coordinates of a point through which the resultant of the parallel forces passe y…
A: To determine the x and y coordinates of a point through which the resultant of the parallel forces…
Q: A 1000-lb force is resolved into components along AB and AC as shown below. If the component along…
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Q: 1. Find the magnitude and location (meters) of the resultant of the following forces acting on the…
A: Given :- To Find:- Magnitude and location of the resultant force.
Q: Find the resultant force of the following? B F3 = 700 N 6 m 2 m F = 400 N y 3 m F2 = 800 N
A: Given F1 = 400 N F2 = 800 N F3 = 700 N To find Resultant
Q: calculate the resultant of the following two forces: A = 30 g @ 45ᴼ B = 70 g @ 60ᴼ
A: According to the problem, the force A has a magnitude of 30 g and it acts at an angle of 45o with…
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- A man on the wire singing "Man on a Wire" while practicing for his circus show has reached the center of the rope, creating a dip on the center angled at 63.2 degrees. If the mass of the man is 49.55 kg and the tension force that can be handled by the wire is 449.77N, would the wire break? Show the tension caused by the man hanging on the wire.A caisson for closing the entrance to a dry dock is of trapezoidal from 16 m wide at the top and 12 m wide at the bottom and 8 m deep. Find the total force in MN on the caisson if the water on the outside is 1 m below the top level of the caisson and the dock is empty. enclude your free body diagram. a.117.72 b.80.93 c.3.164 d.37.77the horizontal and vertical components of several forces are: (a) Ph = -200lb and Pv = 100lb : (b) Fh = 300lb and Fv = -200lb . determine each force and its angle with respect to the hozirontal (x-axis)
- Access plates on the industrial holding tank are bolted shut when the tank is filled with vegetable oil as shown. Suppose that h=7m and d= 1.9m rho_vo=932 kg/m^3. Use the formula method to determine the resultant force that the liquid exerts on plate B and the location of the resultant force from the bottom of the tank.A smooth inclined plane has a gradient of 1 in 6. Calculate the mass of a body that can be held in equilibrium on the plane by a force of 80 N when the force acts: (a) parallel to the plane answer M=49.62kg (b) horizontally answer M=48.94 kg (c) at an angle of the 20° with the plane. answer M=46.62kgA horizontal rod of length L= 9.64 m is attached to an axel in such a way that the axel is located at its left end. Three forces are acting on the rod: F1= 11.6N at the location 2.59 m from the axel, F2 = 15.7 N at the location 5.02 m from the axel, and F3 =15.0 N at the laction 2.31 m from the axel. F1 (pointing up and to the right) makes an angel of 47.7 degrees with the rod, F2 (pointing up and to the left) makes an angel of 45.1 with the rod, and F3 points directly downwards. Calculate the net torque that these three forces exert on the rod. Also, indicate if the torque is clockwise it counter-clockwise.
- 1. R is the resultant coplanar-concurrent forces composing of P, T, F, and each Q acting on a body. Find the magnitude of the fourth force Q and its angle with respect to horizontal, if P = 840N directed downward to the left at 20 degrees with the vertical, T = 890N is acting to the right along the horizontal, F = 530N is up to the right at 45 degrees with the horizontal and R = 1300N acting downward to the right 30 degrees with the horizontal. show solution, formula and the sketch of the FBD and pls write legible1. R is the resultant coplanar-concurrent forces composing of P, T, F, and each Q acting on a body. Find the magnitude of the fourth force Q and its angle with respect to horizontal, if P = 840N directed downward to the left at 20 degrees with the vertical, T = 890N is acting to the right along the horizontal, F = 530N is up to the right at 45 degrees with the horizontal and R = 1300N acting downward to the right 30 degrees with the horizontal.A transmission tower is held by three guy wires attached to a pin at A and anchored by bolts at B, C, and D. If the tension in wire AB is 945 lb, determine the vertical force P exerted by the tower on the pin at A. y 25 ft 20 ft 100 ft B 60 ft C D 20 ft 18 ft 74 ft x The vertical force P exerted by the tower on the pin is 762.84 lb.
- It is desired to remove the spike from the timber by appying force along its horizontal axis. An obstruction "A" prevents direct acess, so that two forces, one 400LB and the other "P" are applied by cables as shown. Here we want to investigate the effects of the distance between the spike adn the obstruction on the two forces so replace 8" by "d" in the figure. Determine the magnitude of "P" necessary to insure a resultant "T" directed along the spike. Please show all work and FBD thank you!Two ladders, 4.00 m and 3.00 m long, are hinged at point A and tied together by a horizontal rope 0.90 m above the floor (Fig. ). The ladders weigh 480 N and 360 N, respectively, and the center of gravity of each is at its center. Assume that the floor is freshly waxed and frictionless. (a) Find the upward force at the bottom of each ladder. (b) Find the tension in the rope. (c) Find the magnitude of the force one ladder exerts on the other at point A. (d) If an 800 N painter stands at point A, find the tension in the horizontal rope.P=650N d=0.20m h=0.35m What are the Y components of the forces at B and C?