Q: Which one(s) of the following free body diagrams depict an object is in equilibrium condition? ...…
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Q: The system in the figure below is in equilibrium. The angles are 01 = 72° and 0, = 33°, and the ball…
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Q: In the figure shown, two masses being pulled by a force F the tension in the string connecting the…
A: Given : T=5 N m2=3 kg F=20 N Let us draw the free body diagrams of…
Q: A Christmas light hangs on a series of strings as shown in the figure below. The tension on string…
A: The tension on string is 0.22N
Q: An aluminum block of mass ml 2.4 kg is connected to a copper block with mass m2 = 8.49 %3D kg were…
A: Mass m1=2.4 kg Mass m2=8.49 kg Angle θ=30° Kinetic friction coefficient b/w steel and aluminium…
Q: A 100 Newton frame is suspended by a string that is joined by two other strings as shown in below.…
A: Along horizontal direction, F1sin80o=F2sin80oF1=F2 Along vertical direction, F1cos80o+F2cos80o=W
Q: a) 61.3N b) 47.2N c) 33.4N d) 74.58N
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Q: An 8 kg object is placed on the top of a scale (balance) inside the elevator. If the elevator…
A: According to Newton’s second law, the sum forces acting on a mass m placed on elevator, which is…
Q: The system shown below is in equilibrium, with the string in the center exactly horizontal. Block A…
A: On left side applying second law of Newton, T1 Cos φ = 40 N (along +y) T1 Cos 35° = 40 N T1 =…
Q: An aluminum block of mass ml 2.4 kg is connected to a copper block with mass m2 = 8.49 kg were on…
A: Given: Aluminium mass m1 = 2.4 kg Copper mass m2 = 8.49 kg θ = 30o kinetic coefficient of friction…
Q: The system shown in the figure below has an acceleration of magnitude 1.15 m/s2, where m1 = 4.30 kg…
A: Given:Mass of block, m1 = 4.30 kgMass of block, m2 = 9.40 kgAcceleration of the system, a = 1.15…
Q: A heavy chandelier with mass 140 kg is hung by chains in equilibrium from the ceiling of a concert…
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Q: a1 T2 人V 人'
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Q: The two conditions for equilibrium often result in a system of equations such as F1 + F2 = 42.0 N…
A: F1 + F2 = 42.0 N and 5.00F1 − 9.00F2 = 0
Q: The five forces shown in figure 3 acts at point 0. What is the magnitude of the resultant ford a.…
A: According to question we need to find magnitude of resultant force.
Q: What is the value of the tension if a 56.7 kg wrecking ball is hanging and in a state of…
A: Given data: Mass (m) = 56.7 kg Required: Tension in string (T)
Q: 20. Two massless ropes support a 3.00 [kg] balloon as shown. ASsuming that the ropes were taut all…
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Q: /40.0° 50.00 T2 T1 T3 5.00 kg
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Q: Q- The system shown in the figure is in equilibrium. Mass of A is 150 Kg. Mass of Bis 70 Kg. Find…
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Q: A heavy chandelier with mass 180 kg is hung by chains in equilibrium from the ceiling of a concert…
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Q: The system shown aside is in equilibrium, Find the tension T in (Newton). Consider T1 = 48 N 53° а.…
A: Under equilibrium state in y-axis T*cos(90-53) = mg in x-axis T1=T*sin(90-53)
Q: 5. The mobile shown is in equilibrium. The weight of object in G is 3.75 N. Find the weights of the…
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Q: Find the tension in each string in the figure below, where ?1 = 42.5°, ?2 = 18.5°, and w = 29.0 N.…
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Q: Find the tension in each cord in Fig. if the weight of the suspended object is w.
A: Given Data: For fig. (a) & (b) A cord tension →TA, B cord tension →TB & C cord tension →TC…
Q: For the system of blocks shown, a horizontal force P impends the motion of block A upwards. The…
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Q: The system in the figure below is in equilibrium with the string in the center exactly horizontal.…
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Q: A 110 kg scaffold is 5.80 m long. It is hanging with two wires, one from each end. A 420 kg box sits…
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Q: A block is hanging in equilibrium by two cables as shown below. The tension in the cables are T1 and…
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Q: If a = 35°, B = 60°, and M = 5.0 kg, determine the tension in string 2 as shown in the figure below.…
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Q: The system in Figure is in equilibrium with the string in the centre exactly horizontal. T₁35° 0 T3…
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Q: Determine the coefficient of friction between the box and the table when the frictional force is 240…
A: Given that Frictional force f = 240 N Normal force R = 800 N
Q: Q- The system shown in the figure is in equilibrium. Mass of A is 150 Kg. Mass of B is 70 Kg. Find…
A: Given data: The mass of A is mA=15 kg. The mass of B is mB=70 kg.
Q: A bag of cement weighing 325N hangs in equilibrium from three wires as suggested in Figure below.…
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Q: Two blocks each of mass m = 3.90 kg are fastened to the top of an elevator as in the figure below.…
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Q: Find the tension in each of the three cables supporting the traffic light if it weighs 200.0 N. 41…
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Q: Two blocks, each of mass m = 4.20 kg are hung from the ceiling of an elevator as in the figure…
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Q: A bag of cement of weight 325 N hangs from three wires as suggested in Figure P5.18. Two of the…
A: θ1=60°θ2=25°W=Weigth of cement bag=T3=325 N
Q: A 10-meter boom with a mass of 30 kilograms is held by a steel cable 6 meters from its left end.…
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Q: Which one(s) of the following free body diagrams depict an object is in equilibrium condition? |25 N…
A: According to question we need to choose correct option .
Q: a) If the elevator has an upward acceleration a = 1.60 m/s2, find the tensions T1 and T2 in the…
A: Part A. Free body diagram for lower block will be: Given values are m=3.71 Kg, g=9.8 m/s2 and a=1.6…
Q: Two monkeys of equal mass are holding onto a single vine of negligible mass that hangs vertically…
A: Draw the free-body diagram of the system.
Q: Q- The system shown in the figure is in equilibrium. Mass of is 150 Kg. Mass of Bis 70 Kg. Find T1,…
A: Ma = 150 kg Mb = 70 kg Let F = 200 N r = 1.5 m d2 = 0.5 m d1 = 1 m
Q: Assuming that the system is in equilibrium and the rope with T, is horizontal, find the tensions T1,…
A: Given that the system is in equilibrium and the rope with T2 is horizontal. To find the tensions…
Q: A mass M1 = 4.1 kg mass is suspended from the ceiling and a mass M2 = 4.3 kg is suspended under it,…
A: The free body diagram of each block is given below: The…
Q: Which one(s) of the following free body diagrams depict an object is in equilibrium condition? ...…
A: Given data: Free body diagrams for an object Required: Free body diagram that satisfy equilibrium…
Q: Find the tension in each string in the figure below, where ?1 = 39.5°, ?2 = 21.0°, and w = 23.0 N.…
A: Given θ1 = 39.5o θ2 = 21.0o W = 23 N
Q: In the figure shown, a mass hangs from two cables as shown and the system is in equilibrium. If the…
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Q: A 2 kg Aluminum block and a 6 kg Copper block are connected by a light string over a frictionless…
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Q: Assume the three blocks m1 = 1.0 kg, m2 = 2.0 kg m3 = 3.5 kg portrayed in the figure below The…
A: Given: m1 = 1.0 kg, m2 = 2.0 kg, m3 = 3.5 kg. coefficient of friction µ = 0.25 force F = 40 N
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- Two 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 mass M of 10 kg hangs from three wires as shown in Figure. If the system is in equilibrium, find the tensions in the wire-1 and wire-2 if α=30o and β=53o . cos30o =sin60o=0.866 cos60o =sin30o=0.500 sin53o=cos37o=0.8 sin37o=cos53o=0.6 g=9.8 m/s2A bag of cement with a mass of 100kg hangs in equilibrium from three wires as shown in the figure . Two of the wires make angles θ1=40 and θ2=30 with the horizontal. Assuming the system is in equilibrium (I) What is the magnitude of tension in string 1 (II)What is the magnitude of tension in string 2
- A bag of cement with a mass of 100kg hangs in equilibrium from three wires as shown in the figure . Two of the wires make angles θ1=40 and θ2=30 with the horizontal. Assuming the system is in equilibrium, a. What is the magnitude of tension in string 1 b. What is the magnitude of tension in string 2The figure below shows two blocks connected by a string of negligible mass passing over a frictionless pulley. m1 = 9.0 kg and ? = 12.0°. Assume that the incline is smooth. a) For what value of m2 (in kg) will the system be in equilibrium? m2 = kg (b) If the block has to slide down the incline with an acceleration of 0.4 m/s2, what should be the value of m2 = (in kg)A bag of cement weighing 525 N hangs in equilibrium from three wires as suggested in the figure below. Two of the wires make angles ?1 = 61.0° and ?2 = 42.0° with the horizontal. Assuming the system is in equilibrium, find the tensions T1, T2, and T3 in the wires. T1 = N T2 = N T3 =.
- The two blocks (m =16 kg, M =88 kg) in Fig. are not attached to each other. The coefficient of static friction between the blocks is µs =0.38, but the surface beneath the larger block is frictionless. What is the minimum magnitude of the horizontal force required to keep the smaller block from slipping down the larger block?The distance between two telephone poles is d = 54.0 m. When a 1.20 kg bird lands on the telephone wire midway between the poles, the wire sags h = 0.206 m. How much tension (in N) does the bird produce in the wire? Ignore the weight of the wireThe system shown above consists of two identical blocks that are suspended using four cords, each of a different length. Which of the following claims are true about the magnitudes of the tensions in the cords? Select two answers. A) T1>T2 B) T1cos30°=T2cos60° C) T3>T4 D) T1+T2=T3
- If you hang a car with a mass of 1770 kg from a steel beam, you observe that the beam bends 0.095 degrees. What is the tension in this beam, in newtons? Using the equation T=F/(2*sin(theta))Two masses mA =9.3kg and mB=6.1kg are on inclines and are connected together by a string as shown in the figure. The angles theta subscript A=700 and theta subscript B = 360 . In the absence of the friction, the force F is required to pull the masses at a constant velocity up the fixed inclines. The force F is now removed. What is the magnitude of the acceleration of the two blocks? Take g =9.81 m/s2, and express your answer using two decimal places.A gymnast of mass 53.0 kgkg hangs from a vertical rope attached to the ceiling. You can ignore the weight of the rope and assume that the rope does not stretch. Use the value 9.81m/s29.81m/s2 for the acceleration of gravity. Calculate the tension T in the rope if the gymnast slides down the rope with a downward acceleration of magnitude 0.900 m/s^2. Express your answer in newtons.
