39 Determine the magritades of forces F, and Fy so that the particle shown in Rig. P4 is in equilibrium.
Q: Q (3): Determine the tension in AC and BC if two cables are tied together at C and loaded which has…
A: For the given arrangement mass = 20 kg To determine Tension in AC and BC
Q: The object below is in equilibrium and has a weight w = 80 N. Find T,, T2, T3 and T,.
A: Free body diagram
Q: If the mass of the flowerpot is 65 kg, calculate the tension generated in every cable for…
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Q: Example: The floor crane and the driver have a total weight of 2500 Ib with a center of gravity at…
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Q: Cable AB passes over the small ideal pulley C without a change in its tension. What length of cable…
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Q: 4:For the frame shown, assuming equilibrium, calculate: a. The reactions at A and B, and b. The…
A: (a) Draw the free-body diagram of the system.
Q: Determine the tension in cables BA and BC necessary to support the 60 kg cylinder in the opposite…
A: Given data: Mass of the cylinder, m = 60 kg. Calculate the weight of the cylinder, W=mg=60 kg×9.81…
Q: Blocks D and F weigh 6 lb each and block E weighs 8 lb. Determine the sag s for equilibrium. Neglect…
A: given weight of block D and block F = 6 lb weight of block E = 8 lb distance between the pulley B…
Q: Q4 Determine the magnitudes of F, F2, and F, for equilibrium of the particle. 60 135 800 lb 60 200…
A: Given, For the 800 lb force,
Q: The Magnitude of the reaction Force (R and T) is
A: Given Data :
Q: Determine the tension in cable BC. Neglect the weight of AB.
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Q: Determine the force P that will keep the pulley system in equilibrium. Neglect the weights of the…
A: Draw the free body diagram for the given system
Q: Determine whether the block shown is in equilibrium and find the magnitude and direction of the…
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Q: The 75-kg cylinder A is supported by a malleable cable C at 200 and a smooth surface. Determine all…
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Q: THE BARS AB AND AC ARE JÕINED BY A PIN AT A AND A HORIZONTAL CABLE. THE VERTICAL CABLE CARRYING THE…
A: Given:- m=200 kg B= pinned joint C= Roller joint To find:- To find tension in horizontal cable
Q: A rope passes over a frictionless pulley at D, as shown. The cylinder weighs 300 lb. Determine the…
A: The free body diagram of the beam is as follows: Calculate the moment about point A as follows:…
Q: A puck weighs 10 lb and rests on the center of the frictionless surface of the ramp supported in…
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Q: Determine the force P needed to cause the impending motion of the block
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Q: Example : The floor crane and the driver have a total weight of 2500 Ib with a center of gravity at…
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Q: Two bars and a torsional spring are used to sup- port a mass m as shown in Fig. bars are negligible…
A: Write the expression of the potential energy of the spring.
Q: The body is in equilibrium when the resultant of the force acting * .on dose not zero true False O
A: A body will always be in equilibrium if the sum of forces acting on it zero or body is remain at…
Q: Where must the 2.2 kN force be applied so that the bar A whose mass is negligible will be in…
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Q: Determine the magnitudes of F, F2, and F, for equilibrium of the particle.
A: Consider the diagram shown below for the resolved forces into components. Here, the angle made by…
Q: Determine the tension at the cable TAB and TAC in the system below at equilibrium.
A: Calculate the inclination of the cable AB with the horizontal. θ=tan-13 m4 m ≈36.9° Here, θ is the…
Q: Assuming smooth contact surfaces, the weight of the small cylinder and big cylinder is 250 kN and…
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Q: Q (3): Determine the tension in AC and BC if two cables are tied together at C and loaded which has…
A: m=18 kg
Q: Find the magnitude of the force F and its direction θ so that the particle P is in equilibrium.
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Q: The 60-lb homogeneous disk is suspended from a belt that runs from B to C. The spring OA holds the…
A: Free body diagram of disc
Q: 05: The 50-kg homogeneous smooth sphere resèts on the two inclines. Determine the contact forces at…
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Q: Determine whether the block shown is in equilibrium and find the magnitude and direction of the…
A: Given data: The angle of the inclined surface with horizontal, θ=25°. The applied force, P=750 N.…
Q: the 75-kg cylinder A is supported by a flexible cable C at 200 and a smooth plane. Determine all…
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Q: The quarter circular plate is subjected to forces as shown. If the plate weighs 50 kg, and assuming…
A: Given Mass of the plate = 50kg Forces = 350 N, 200 N and 200 N To find Reaction at A Reaction at B…
Q: a) Find the tension in the string. b) Determine the normal force on the 5.0 kg block.
A: To find Tension in string normal force
Q: The weight W = 9 kN hangs from the cable which passes over the pulley at F. Neglecting the weights…
A: Given data Given force system
Q: If the man can move the crate, and the tension force is in the cable.
A: we have to find tension in string for the box to move
Q: The mass of the uniform bar ABis 40 kg. Calculate the couple Crequired for equilibrium if a.θ = 0…
A: Given Data Mass of the bar AB is: mAB=40 kg Weight of the bar is W=mg=40×9.81=392.4 N Reaction…
Q: A 2600-lb tractor is used to lift 900 lb of gravel. Determine the reaction at each of the two front…
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Q: The mechanism shown is acted upon by the force P ; derive an expression for the magnitude of the…
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Q: Q (3): Determine the tension in AC and BC if two cables are tied together at C and loaded which has…
A: Given Data Mass of the load is: m=20 kg Angle at A is: α=50° Angle at B is: θ=25° Weight is,…
Q: The assembly shown has the dinensions given above. When a force of F 220 ib is applied, find the…
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Q: 15 B
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Q: The supporting structure of the billboard is attached to the ground by a pin at B, and its rear leg…
A: Given:
Q: The supporting structure of the billboard is attached to the ground by a pin at B, and a roller at…
A: Given data: The weight of billboard and structure together is, W=1400 N. The mass of the weight is,…
Q: F1 F2 B 8 ft E |F 6 ft H. –6 ft 6 ft -6 ft NE A,
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Q: Draw the locations of G, M, and B for a floating body to be in stable equilibrium
A: G is the canter of gravity of the body M is the Metacentre of the body B is the centre of buoyancy
Q: Determine the tension in the cable at B, given that the uniform cylinder weighs 350 lb. Neglect…
A: Draw the free body diagram of the cylinder. OC=3 ftcos 40°OC=2.3 ft ED=3 ftsin 50°ED=2.3 ft
Q: A puck weighs 8 lb and rests on the center of the frictionless surface of the ramp supported in…
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Q: Bodies A and B are joined by a cord parallel to the inclined plane as shown. Under body A which…
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Q: Determine the tension in cables BA and BC necessary to support the 75-kg cylinder in the figure…
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Q: Block A has a mass of 4 kg and block 8 of 4 kg Neglecting the mass of the pulleys, find the tension…
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Resolve the forces F2 and F3 along x and y axes by using the concept of vector resolution. Draw a diagram to show the resolved forces.
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- The uniform, 20-kg bar is placed between two vertical surfaces. Assuming sufficient friction at A to support the bar, find the magnitudes of the reactions at A and B.The uniform bar of weight W is held in equilibrium by the couple C0. Find C0 in terms of W, L, and .Two concrete blocks weighing 320 lb each form part of the retaining wall of a swimming pool. Will the blocks be in equilibrium when the pool is filled and the water exerts the line loading shown?
- The resultant force of the three cable tensions that support the crate is R = 500j lb. Find T1 and T3, given that T2 = 300 lb. "Full procedure (step by step), please."The 30 kg block C, rests on the uniform 15 kg bar AB. The cable connecting C to B passes over a pulley at D. Find the magnitude of the force acting between the block and the bar.Q3) Find the required weight (N) and the angle 0 of block B for equilibrium. If the weight of block D is 375 N and C is 230 N. 8 m 4 m C The weight of block B (WB) and angle (theta) are:
- Why does the force through DE =0, however when you take equilibrium through point E it would =10 Likewise same with points C and B ThanksFind the required weight (N) and the angle 0 of block B for equilibrium. If the weight of block D is 375 N and C is 230 N. 8 m 4 m The weight of block B (WB) and angle (theta) are:Two blocks are connected by a string. The smooth inclined surface makes an angle theta of 37 degrees with the horizontal and the block on the incline has a mass of 6.5 kg. Find the mass 2 of the hanging block that will cause the system to be in equilibrium.