Q1: The cable AB supports three vertical loads as shown in next figure. Compute the resultant of these three forces and locate it with respect to point (A).
Q: QUESTION 4 In the picture below, the block of mass m= 26.0 kg is in equilibrium. The tension in the…
A: Given:- The block mass m = 26 kg The horizontal tension T1 = 143 N Find:- The angle θ ?
Q: Atwood's machine consists of a frictionless pulley and two masses connected by a cable over the…
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Q: 60° Fri Fr2 70 Fw
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Q: A 14.0 kg traffic light is suspended from two cables as shown in the figure below. /60 30 Find the…
A: Given: Mass of traffic light, m=14.0 kg Angle with left cable =60° Angle made with right cable…
Q: The sign at Newton’s Deli has a mass of 45.1 kg. It is supported by a boom. The angle between the…
A: A. Tension on the support cable is, TsinA=mgT=mgsinA=45.1 kg9.8 m/s2sin31o=858.15 N≈858 N
Q: the figure shown, compute the following: 1. The tension in cable BD. 2. The components of the…
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Q: The figure below shows a hanging mass m = 5.2 kg. Determine the Tension T in each of the supporting…
A: Given data The mass of the block is m = 5.2 kg. The free-body diagram is drawn as, From the…
Q: Knowing that the weight of the crate is 600 lb that is shown in Figure 3 (the system is under…
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Q: Problem 13 For the forces A and B shown below, show the resultant force with (a) the parallelogram…
A: Parallelogram Law of Vector Addition: If two vectors can be represented by the two adjacent sides…
Q: A simple Atwood machine is shown in the diagram. If m1 = 25.2 kg and m2 = 15.8 kg, what is the…
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Q: Consider the tow truck shown in the figure. If the tensional force in the cable is 1000 N and if the…
A: The vertical component of the force that lifts the car off the ground will be equal to the sine…
Q: Consider the figure below. (a) Find the tension in each cable supporting the 548-N cat burglar.…
A: since the person is in equilibrium so all the force acting on it will sum up to zero and the forces…
Q: 750-pound boat sits on a ramp inclined at 60 degree, what force is required to keep the boat from…
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Q: What is the tension in the two ropes in the picture shown below? T1 T2 600° 30° Tx T2x 60Kg W
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Q: B 50 N A
A: Consider acceleration due to gravity to be 10m/s2 Free body diagram of force on each pulley is-
Q: A person exerts a horizontal force of 190 N in the test apparatus shown in the figure. Find the…
A: The force F=190N y=0.34m x=0.054m
Q: A weight of 800 pounds is suspended from two cables,as shown in the figure.What are the tensions in…
A: Given data: Weight of box is, W=800 lb.
Q: Q1: determine the resultant of the force system in next figure. And locate the resultant with…
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Q: 60° 25° ? 3. In the above diagram, the left cable is strong, but the right cable can only handle a…
A: The free-body diagram of the system is shown below.
Q: Consider the 75.0 kg wood packaging shown in the figure. The package is supported by a vertical…
A: Given data: - The angle of cable AB is θ = 50o. The angle of cable AC is Φ = 30o. The mass of wood…
Q: sider the figure below. (a) Find the tension in each cable supporting the 540-N cat burglar. (Assume…
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Q: A steel cable is used to pull an 800 kg car across the street. How much acceleration can the car…
A: Mass of car: m = 800 kg Maximum tension in cable: T = 3600 N
Q: A body of weight 100 N is hanging by two cables as shown in figure. Calculate the tension in each…
A: The free-body diagram of the hanging weight is shown below.
Q: Jason is pulling a box across the room. He is pulling with a force of 23 newtons and his arm is…
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Q: A rope connecting points A and B supports the force Fshown in the figure. Write expressions using…
A: Given data: F = 12 lb Angle (θ) = 30° with x-axis
Q: A crate is supported by three cables as shown in the figure below. The forces on each cable is given…
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Q: How do you find the minimum horizontal force of a box with force coming at an angle? I’m not sure…
A: The block is placed on a rough surface having a coefficient of friction µ. When the block is pulled…
Q: A wedge assembly, composed of wedges X and Y, is designed to lift crate W whose weight is 1345 N, as…
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Q: A certain orthodontist uses a wire brace to align a patient's crooked tooth as in the figure below.…
A: The force exerted by the wire on the tooth, by resolving the force along y axis,
Q: Q2: Two cables which have known forces are attached to the top of the transmission tower at A.…
A: Suppose that the angle between AB and the tower is θ tanθ=34 θ=tan-134 θ=36.87o
Q: Disc O (weight 10 N) is supported by two frictionless planes which are perpendicular one to another.…
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Q: You are asked to design the decorative mobile shown. The strings and rods have negligible weight,…
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Q: Calculate the reaction forces RA and RB at support A and support B respectively.
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Q: The tension in the cord A in the figure below is 30 N. Find the tension B and the value of W. S0°…
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Q: Determine the tensions in cables A, B, C, and D for the figure below. The box weighs 2500 N. A. B…
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Q: Cable ABC supports two loads as shown. Determine the distances a and b when a horizontal force P of…
A: The free-body diagram of the cable is shown below. Here, Ax denotes the horizontal reaction at the…
Q: nd m3 are hanging from a common point using a thread. Draw the force diagram showing all the forces…
A: We know that the three masses m1, m2, and m3 are connected by the string from the common point and…
Q: A stepladder consisting of two legs pinned together at C is resting on a rough floor. The uniform…
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Q: The cables shown hold the 500 kg mass in equilibrium. Find FBD, Cartesian form of all force vectors,…
A: The given forces can be labelled as shown:
Q: The sprinter from problem 9 is now out of the blocks and running. If the coefficient of static…
A: Coefficient of static friction (μs) = 0.80 Vertical force (F) = 2000 N (downwards)
Q: The two forces shown act at point A of the bent bar. forces. une the Fa lape F7lope
A: Given values:- F1=3 kips ----(1) F2=7 kips ----(2) Now angle diagram for the system can be drawn…
Q: A certain orthodontist uses a wire brace to align a patient's crooked tooth as in the figure below.…
A: From the figure it can be easily seen that the x-component of the tension cancels out as they are…
Q: What horizontal force must be applied to a large block of mass M shown in figure below so that the…
A: The expression to solve for the tension on the spring attached by mass m1 is as follows: T1=m1g…
Q: A 150 N traffic light at the intersection of Rowe and Smith Streets is suspended by 3 cables as…
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Q: A block with mass m = 9 kg is attached to two ropes as shown below. What is the magnitude of the…
A: in this question we find the tension in rope T1 nad T2 Both.
Q: A mechanic uses an ideal pulley system such as the one shown in the figure below to support a car…
A: The free-body diagram of the lower pulley is shown below. Here, m denotes the engine’s mass and g…
Q: A weight of 500 pounds is suspended from two cables as shown in the figure. What is the tension in…
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Q: Two stacked blocks are pushed along a horizontal table. Force F' is applied horizontally to the 6m…
A: Given data: The mass of the upper block is M1=5m. The mass of the lower block is M2=6m. The value…
Q: A 13.3 kg traffic light is suspended from two cables as shown in the figure below. 60 30 Find the…
A: Let T1 and T2 be the tensions acting along left and right cable respectively. The net force acting…
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- The leg and cast in Figure P4.40 weigh 220 N (w1). Determine the weight w2 and the angle needed so that no force is exerted on the hip joint by the leg plus the cast. Figure P4.40Two identical strings making an angle of = 30.0 with respect to the vertical support a block of mass m = 15.0 kg (Fig. P4.32). What is the tension in each of the strings?A 175 N sign is supported by two ropes. One rope pulls up and to the right θ1=29.5∘ above the horizontal with a tension T1, and the other rope pulls up and to the left θ2=49.5∘ above the horizontal with a tension T2, as shown in the figure. Find the tensions T1 and T2.
- A 67.0-kg person stands on a lightweight diving board supported by two pillars, one at the end of the board, the other 1.10 maway. The pillar at the end of the board exerts a downward force of828 N. (a) How far from that pillar is the person standing? (b) Findthe force exerted by the second pillar.A traffic light of weight w is supported by two cables as shown in the figure. The value of T2 is:The figure below shows a bird feeder that weighs 100.1 N. The feeder is supported by a vertical wire, which is in turn tied to two wires, each of which is attached to a horizontal support. The left wire makes a 60° angle with the support, while the right wire makes a 30° angle. What is the tension in each wire (in N)
- A uniform plank with length 2 m, mass 30k is supported by three ropes as shown by the blue vectors in the above figure. If the person's weight is 700 N, d = 0.5 m from the left find tension T1 From the above question Find T2. From the above question, find T3.A 110 kg scaffold is 5.80 m long. It is hanging with two wires, one from each end. A 420 kg box sits 1.90 m from theleft end. What is the tension in the right hand side wire? (g = 9.8 m/s2) please show the full solution, thank you.A 300 N girl and a 400 N boy stand on a 16-m platform supported by posts A and B as shown, The platform itself weighs 200 N. What are the forces exerted by the supports on the platform? Draw a free body diagram.
- a bird feeder that weighs 199.3 N. The feeder is supported by a vertical wire, which is in turn tied to two wires, each of which is attached to a horizontal support. The left wire makes a 60° angle with the support, while the right wire makes a 30° angle. What is the tension in each wire (in N)? (A) left wire, (B) right wire, (C)bottom wireThe figure below shows a bird feeder that weighs 177.7 N. The feeder is supported by a vertical wire, which is in turn tied to two wires, each of which is attached to a horizontal support. The left wire makes a 60° angle with the support, while the right wire makes a 30° angle. What is the tension in each wire (in N)? left wire= ? N right wire= ?N bottom wire= ?NA rod is only loaded by its own weight. This is represented by the line load n. n=ρgA, ΔT=0 EA=const.,l Sought.: First, give the differential equation that describes the problem. Find u(x) and FL(x).