In the figure (Figure 1) the weight w is 51.3 N .
A) What is the tension in the diagonal string?
B) Find the magnitudes of the horizontal forces F⃗ 1 and F⃗ 2 that must be applied to hold the system in the position shown.
Homework Answers
(1 point) A non-uniform bar of weight W = 47.5 N is suspended at rest in...
(1 point) A non-uniform bar of weight W = 47.5 N is suspended at rest in a horizontal position by two massless cords. The angle phi between cord 2 and the vertical is equal to 45.0°. The bar has a length L = 8.0 m and the distance of its center of gravity from the left-hand end of the bar is 4.3 m. What is the tension in cord 2? What is the angle theta between cord 1 and the...
A block of weight w = 40.0 N sits on a frictionless inclined plane, which makes...
A block of weight w = 40.0 N sits on a frictionless inclined plane, which makes an angle θ = 35.0 ∘ with respect to the horizontal, as shown in the figure. (Figure 1)A force of magnitude F = 22.9 N , applied parallel to the incline, is just sufficient to pull the block up the plane at constant speed. Part B What is Wg, the work done on the block by the force of gravity w⃗ as the block moves...
2) In the figure below a uniform boom (weight W, = 11,000 N and length L)...
2) In the figure below a uniform boom (weight W, = 11,000 N and length L) of a crane is supported by a cable attached of the way from the TOP of the boom. The boom supports & pallet of steel pipes of weight W, = 15,000 N. Here the angle a = 55° and B = 25°. a) Clearly draw all the forces acting on the boom (4 pts). b) Determine the tension in the cable (6 pts) and...
A uniform beam of length L - 4.0 m and weight W - 100 N is...
A uniform beam of length L - 4.0 m and weight W - 100 N is free to rotate about a pivot situated at a distance d = 1.4 m from one end. When the beam is horizontal, a force F - 40 N is applied at one end of the beam, at shown in the figure. Calculate the net torque exerted on the beam, in Nm. Do not type in units. F a d L/2 4/2 w
A block of weight w = 40.0 N sits on a frictionless inclined plane, which makes...
A block of weight w = 40.0 N sits on a frictionless inclined plane, which makes an angle θ = 22.0 ∘ with respect to the horizontal, as shown in the figure. (Figure 1)A force of magnitude F = 15.0 N , applied parallel to the incline, is just sufficient to pull the block up the plane at constant speed. part A The block moves up an incline with constant speed. What is the total work Wtotal done on the...
A block of weight w = 35.0 N sits on a frictionless inclined plane, which makes...
A block of weight w = 35.0 N sits on a frictionless inclined plane, which makes an angle θ = 32.0 ∘ with respect to the horizontal, as shown in the figure. (Figure 1)A force of magnitude F = 18.5 N , applied parallel to the incline, is just sufficient to pull the block up the plane at constant speed. Part A The block moves up an incline with constant speed. What is the total work Wtotal done on the...
A block of weight w = 35.0 N sits on a frictionless inclined plane, which makes...
A block of weight w = 35.0 N sits on a frictionless inclined plane, which makes an angle ? = 24.0 ? with respect to the horizontal, as shown in the figure. (Figure 1)A force of magnitude F = 14.2 N , applied parallel to the incline, is just sufficient to pull the block up the plane at constant speed. What is WF, the work done on the block by the applied force F? as the block moves a distance...
Problem 3. (20 points) Consider the following simplified model of a person in static equilibrium in...
Problem 3. (20 points) Consider the following simplified model of a person in static equilibrium in a yoga pose. The diagram below shows the upward normal forces acting on the hands and feet, as well as the downward weight forces on the upper and lower body. There are also horizontal static friction forces on the hands and feet not shown in this diagram. Assume the weight of the lower body has magnitude 250 N and the weight of the upper...
= 32° with the horizontal. A block of weight W = 280 N can be moved...
= 32° with the horizontal. A block of weight W = 280 N can be moved anywhere along the bar; its position is defined by the distance x = 1.10 m from In the figure, a thin horizontal bar AB of negligible weight and length L = 3.6 m is hinged to a vertical wall at A and supported at B by a thin wire BC that makes an angle the wall to its center of mass. Find (a) the...
A block of weight w = 25.0 N sits on a frictionless inclined plane, which makes...
A block of weight w = 25.0 N sits on a frictionless inclined plane, which makes an angle θ = 28.0 ∘ with respect to the horizontal. A force of magnitude F = 11.7 N , applied parallel to the incline, is just sufficient to pull the block up the plane at constant speed. 1. The block moves up an incline with constant speed. What is the total work Wtotal done on the block by all forces as the block...
(1 point) A non-uniform bar of weight W = 47.5 N is suspended at rest in a horizontal position by two massless cords. The angle phi between cord 2 and the vertical is equal to 45.0°. The bar has a length L = 8.0 m and the distance of its center of gravity from the left-hand end of the bar is 4.3 m. What is the tension in cord 2? What is the angle theta between cord 1 and the...
2) In the figure below a uniform boom (weight W, = 11,000 N and length L) of a crane is supported by a cable attached of the way from the TOP of the boom. The boom supports & pallet of steel pipes of weight W, = 15,000 N. Here the angle a = 55° and B = 25°. a) Clearly draw all the forces acting on the boom (4 pts). b) Determine the tension in the cable (6 pts) and...
A uniform beam of length L - 4.0 m and weight W - 100 N is free to rotate about a pivot situated at a distance d = 1.4 m from one end. When the beam is horizontal, a force F - 40 N is applied at one end of the beam, at shown in the figure. Calculate the net torque exerted on the beam, in Nm. Do not type in units. F a d L/2 4/2 w
Problem 3. (20 points) Consider the following simplified model of a person in static equilibrium in a yoga pose. The diagram below shows the upward normal forces acting on the hands and feet, as well as the downward weight forces on the upper and lower body. There are also horizontal static friction forces on the hands and feet not shown in this diagram. Assume the weight of the lower body has magnitude 250 N and the weight of the upper...
= 32° with the horizontal. A block of weight W = 280 N can be moved anywhere along the bar; its position is defined by the distance x = 1.10 m from In the figure, a thin horizontal bar AB of negligible weight and length L = 3.6 m is hinged to a vertical wall at A and supported at B by a thin wire BC that makes an angle the wall to its center of mass. Find (a) the...
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