Q: An antelope is being pulled by two forces whose vector-component expressions are: F1 = 2.2Ni +…
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Q: Determine the resultant of the given forces.f1 acting due east with a magnitude of 10 N, f2 acting…
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Q: Consider the following vector forces: A = 2i – 2j (in N), B=-i +2j (in N) and C = -2ï +5j (in N). a)…
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Q: An antelope is being pulled by two forces whose vector-component expressions are: F1--7.8NI + -7.4Nj…
A: Given: Force, F1 = -7.8Ni + -7.4Nj + 4.8Nk Force, F2 = 1.6i + 2.6Nj + -3.5Nk To find angles…
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Q: Find the magnitude and direction of the resultant of the two forces shown knowing that P = 600 N and…
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Q: Find the resultant of the following forces by component method: F1= 12 N, south; F2= 24 N, 30° north…
A: We know that the component method consists in summing each component of knownvectors in rectangular…
Q: An antelope is being pulled by two forces whose vector-component expressions are: F1 = -6Ni +…
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A: Consider east west as x axis North and South as y axis F1= 4i N F2=6cos45°i + 6sin45° j N = 4.24i…
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Q: Find the magnitude and direction of the resultant of the two forces shown knowing that P = 600 N and…
A: From the diagram given in question, The expression for total force P is given as: P=600…
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A: Given Three cables are used to tether a balloon as shown. Determine the vertical force P exerted by…
Q: The figure shows loads hanging from a room ceiling.Given that theta = 50.0°, andm = 12.0 kg. Find…
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Q: An antelope is being pulled by two forces whose vector-component expressions are: F1 = -8.9Ni +…
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Q: A 590 N police officer is supported by three cables(T1, T2 and T3), of which T, and T2 are making…
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A: F2=50 N x is 0.5 m
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Q: Two masses m1=4 Kg and m2=10 Kg are connected with string and pulled with a force F=22 N that makes…
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Q: An antelope is being pulled by two forces whose vector-component expressions are: F4.ANI • 6.4Nj +…
A: Dot product of two vectors is as follows; F1→·F2→=F1F2cosθ…
Q: An antelope is being pulled by two forces whose vector-component expressions are: F1 = 8.8Ni +…
A: Given data: F1 = 8.8Ni + -9.2Nj + -6.2Nk F2 = 0.1Ni + -8.4Nj + 4.8Nk Required: The angle between…
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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: Shown below is a 10.0 kg block being pushed by a horizontal force F of magnitude 217.0 N. The…
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Q: A mass M1 = 4.1 kg mass is suspended from the ceiling and a mass M2 = 4.3 kg is suspended under it,…
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Q: 60° 1 2 70°
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Q: An antelope is being pulled by two forces whose vector-component expressions are: F1 = -2.1Ni +…
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Q: Two masses m1=5 Kg and m2=9 Kg are connected with string and pulled with a force F=27 N that makes…
A: Given data, Masses = 5 kg and 9 kg Applied force = 27 N Angle of the force with the horizontal = 53o
Q: Find the magnitude of two equal forces acting at a point with an angle of 60° between them, if the…
A: Given data: Two equal forces F1 = F2 = F Angle (θ) = 60° Magnitude of resultant = 30 × root(3) N…
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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- A uniform plank of length 2.00 m and mass 29.0 kg is supported by three ropes, as indicated by the blue vectors in the figure below. Find the tension in each rope when a 705-N person is d = 0.500 m from the left end. magnitude of T, 493.56 378 Your response differs from the correct answer by more than 10%, Double check your calculations. N 671.95 Your response differs from the correct answer by more than 10%, Double check your calculations. N magnitude of T. magnitude of T, 40.0° -2.00 mA 60.0 cm, uniform, 50.0 N shelf is supported horizontally by two vertical wires attached to the sloping ceiling (Eigure 1). A very small 25.0 N tool is placed on the shelf midway between the points where the wires are attached to it. Figure 25.0 cm Tool 75.0 cm 20.0 cm 1 of 1 Part A Find the tension in the left-hand wire. Express your answer with the appropriate units. T = Value Submit Part B Request Answer Find the tension in the right-hand wire. Express your answer with the appropriate units. TR= Value Submit Units N Previous Answers Request Answer X Incorrect; Try Again; 3 attempts remaining ?A string, having a diameter of 1 mm and density of 16.0 x 103 kg/m³, is fixed at one end. Its other end hangs over a pulley and has a block of mass 2.00 kg attached to it, as shown in Figure 2 L S Figure 2 The horizontal part has a length L = 1.60 m and a mass m = 20.0 g. Calculate the tension in the string. O A. 23.5 N
- A box on a 15-degree incline weighs 350N. Given that the system is in static equilibrium and us = 0.55 and uk = 0.42.a. what's the normal force (N) magnitude and what's its angle of direction with respect to the positive x-axis?b. what's the frictional force magnitude and it's angle of direction with respect to the positive x-axis?Now, a rope creates a tension T to pull the box in the direction 30 degrees upward with respect to the incline. This makes the box impending to slide.c. what's the magnitude of Td. what's the magnitude of NThe end of a light rope ABCD are connected to the same horizontal beam at A and D. Masses of 1 kg are suspended at B and C. AB = CD BC and AD = 2 AB. Calculate the tension in each part of the rope using the method of components if A and D are in the same horizontal plane (use g = 9.81 m/s2). A.The two structural members, one of which is in tension and the other in compression, exert the indicated forces on joint O. Determine the magnitude of the resultant Rof the two forces and the angle e which R makes with the positivex-axis. The angle e is measured counterclockwise from the positive x-axis. 4.1 kN 1,8 kN 28° 57 Answers: R = i kN e = i
- A 70.0 cm, uniform, 40.0 N shelf is supported horizontally by two vertical wires attached to the sloping ceiling (Figure 1). A very small 15.0 N tool is placed on the shelf midway between the points where the wires are attached to it. The shelf is heavier than the tool. 1. Find the tension in the left-hand wire. 2. Find the tension in the right-hand wire.This problem concerns the concept of tension in a rope. Consider a rope subjected to a pulling force on its two ends as shown in (Figure 1). The rope is stationary. An arbitrary point P divides the rope into a left-hand segment L and a right-hand segment R. Figure wi L pull R 232 pull 1 of 3 Part A For segment R and segment L to hold together, they must exert forces on each other. What is the direction of the force exerted on segment R by segment L? View Available Hint(s) left right Submit Part B FLR Assume that segment R exerts a force of magnitude T' on segment L. What is the magnitude FLR of the force exerted on segment R by segment L? Give your answer in terms of T and other constants such as g. ► View Available Hint(s) = Submit % ΑΣΦ www ?A 70.0 cmcm, uniform, 40.0 NN shelf is supported horizontally by two vertical wires attached to the sloping ceiling (Figure 1). A very small 15.0 NN tool is placed on the shelf midway between the points where the wires are attached to it. 1. Find the tension in the left-hand wire. 2. Find the tension in the right-hand wire.
- The system in the figure below is in equilibrium with the string in the center exactly horizontal. Find (a) tension T1, (b) tension T2, (c) tension T3 and (d) angle 0. T2 40 N 30 NThe leg and cast in the figure below weigh 250 N, with the center of mass as indicated by the blue arrow in the diagram. The counterbalance wi weighs 110 N. Determine the weight wa and the angle a needed so that no force is exerted on the hip joint by the leg plus cast. 172.4 Your response differs from the correct answer by more than 10%. Double check your calculations. N 62.19 Your response is within 10% of the correct value. This may be due to roundoff error, or you could have a mistake in your calculation. Carry out all intermediate results to at least four-digit accuracy to minimize roundoff error. 40A block resting on a plane inclined at an angle e 32° from the horizontal is being held in place by steel cables a, b, and cas shown in the figure below. The tension in cable bis 80.0 N. Note that cable ais parallel to the surface of the incline and that cable bis 42° C perfectly horizontal. a) Create an FBD around point Dand determine the tension in wire a and wire C. b) Create an FBD around the block and determine the normal force Nand the force due to gravity Fg. c) What is the mass of the block in kilograms?