A 9.0 kg uniform bar 2.0m long is suspended horizontally by two vertical wires: the first...

A 5.0 kg uniform bar 2.0m long is suspended horizontally by two vertical wires: the first...

A 5.0 kg uniform bar 2.0m long is suspended horizontally by two vertical wires: the first is attached at position 0.0cm and the second is at the 150cm position. The tension in the second wire is __________

A uniform steel beam (mass 43.7 kg, length 9.79 m) is hinged at one end to...

A uniform steel beam (mass 43.7 kg, length 9.79 m) is hinged at one end to a wall and has two wires attached at the other end. Wire 1 (length 4.67 m) is horizontal and is attached to the wall, and wire 2 is vertical and is attached to the floor If the system is in equilibrium and the tension in wire 2 is 130 N, find the magnitude of the tension in wire 1, in N.        

Two 1-meter long vertical, parallel wires 12.5 cm apart each carry a current. The first wire...

Two 1-meter long vertical, parallel wires 12.5 cm apart each carry a current. The first wire carries 31 Amps upward. If it exerts an attractive force of 5.1 x 10- 4 N on the second wire, what is the magnitude and direction of the current in the second wire?

A bar of uniform cross section is 28.1 in long and weighs 61.2 lb. A weight...

A bar of uniform cross section is 28.1 in long and weighs 61.2 lb. A weight of 67.3 lb is suspended from one end.  The bar and    weight combination is to be suspended from a cable attached at the balance    point.  How far (in) from the weight should the cable be attached, and what is the tension (lb) in the cable?

A 2.4 m swinging chair is suspended from the ceiling by two vertical ropes that are...

A 2.4 m swinging chair is suspended from the ceiling by two vertical ropes that are connected to each end. The swinging chair has a uniform mass of 15 kg. Suppose you have a mass of 65 kg, and want to sit at a position 0.6 m from one end of the swing. What is the tension in each of the two ropes?

A bar of length L and uniform density is held horizontally against a wall by a...

A bar of length L and uniform density is held horizontally against a wall by a pivot at one end and a rope of tension T which pulls up and to the left making an angle \theta with the vertical wall. The rope is attached to the bar at a distance l = \frac{1}{3} L from the wall. A mass M is resting at the end of the bar.If the bar has total mass 2.6kg, the mass M=2.6kg, and the...

A block weighing w newtons is suspended from a horizontal support by two wires. The first...

A block weighing w newtons is suspended from a horizontal support by two wires. The first wire extends up and to the left from the block, making a 41 degree angle with the horizontal support. A vector extending from the block along the first wire is labeled F 1. The second wire extends up and to the right from the block, making a 31 degree angle with the horizontal support. A vector extending from the block along the second wire...

10.0-m long bar is attached by a frictionless hinge to a wall and held horizontal by...

10.0-m long bar is attached by a frictionless hinge to a wall and held horizontal by a rope that makes an angle 53 degrees with the bar. The bar is uniform and weighs 39.9 N. How far from the hinge should a 10.0-m Kg mass suspended from the tension T in the rope to be 125 N?

If a traffic light is stationary at a 4-way, and is suspended from two wires one...

If a traffic light is stationary at a 4-way, and is suspended from two wires one at a 53 degree angle and the second at a 37 degree angle relative to the horizontal, find the tension in two wires which support a traffic light if the mass of the traffic light is 30-kg. Please list any formulas used

A ball hangs from two wires the left wire makes 60 deg angle with vertical and...

A ball hangs from two wires the left wire makes 60 deg angle with vertical and the tension in wire is 326 N . The right wire makes 45 deg angle with vertical. Calculate the mass of ball in kg, take g = 9.8 m/s^2 , answer should be to two significant digits .