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

Two vertical ropes support a beam with a uniformly distributed mass of 12.0 kg and a...

Two vertical ropes support a beam with a uniformly distributed mass of 12.0 kg and a length of 8.00 m. The ropes are attached to the ends of the beam. An object with mass 46.0 kg is placed at a point 1.2 m from the left end of the beam. What is the tension in each rope?

A mass of M = 13.0 kg is suspended from the ceiling at the end of...

A mass of M = 13.0 kg is suspended from the ceiling at the end of a 2-m cable of negligible mass. If released from rest when the string makes an angle of 20◦ from the horizontal, what will be the speed of the mass as it passes through the lowest point of its swing? (the answer is 1.54)

there is a 100.0m bridge that weighs 1.1kg that suspended by two ropes at each end,...

there is a 100.0m bridge that weighs 1.1kg that suspended by two ropes at each end, and on this bridge, there is a 0.6kg mass suspended. So my question is, if I know the left rope tension to be 11.57N and the right rope tension to be 7.06N how do I find how far the mass is suspended from the left rope.

A 24.0 kg child plays on a swing having support ropes that are 2.10 m long....

A 24.0 kg child plays on a swing having support ropes that are 2.10 m long. A friend pulls her back until the ropes are 41.0 ∘ from the vertical and releases her from rest. What is the potential energy for the child just as she is released, compared with the potential energy at the bottom of the swing? How fast will she be moving at the bottom of the swing? How much work does the tension in the ropes...

A uniform 1.8-kg rod that is 0.88 m long is suspended at rest from the ceiling...

A uniform 1.8-kg rod that is 0.88 m long is suspended at rest from the ceiling by two springs, one at each end. Both springs hang straight down from the ceiling. The springs have identical lengths when they are unstretched. Their spring constants are 36 N/m and 52 N/m. Find the angle that the rod makes with the horizontal.

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

A 9.0 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 __________(include units).

A horizontal wire is hung from the ceiling of a room by two massless strings. The...

A horizontal wire is hung from the ceiling of a room by two massless strings. The wire has a length of 0.22 m and a mass of 0.009 kg. A uniform magnetic field of magnitude 0.075 T is directed from the ceiling to the floor. When a current of I = 31 A exists in the wire, the wire swings upward and, at equilibrium, makes an angle φ with respect to the vertical, as the drawing shows. Find (a) the...

A 3 meter uniform rod with a weight of 1000 N is suspended by two vertical...

A 3 meter uniform rod with a weight of 1000 N is suspended by two vertical cables and has a large box (1750 N in weight) tied to the right hand side. One cable is exactly on the left most end of rod with a tension of 2000 N. The second cable is 1 m to the right of the center of mass and has an unknown tension. What angle does the rod make with the force of the hanging...

You decide to get on one of the swing rides at the amusement park. The seat...

You decide to get on one of the swing rides at the amusement park. The seat is a 20 kg, 12-m long uniform board suspended by 2 cables. You have a mass of 65 kg and sit 3 m from the right cable. Each cable has a length of 40 m, a radius of 0.5 cm, and a Young’s modulus of 200x109 N/m2 . Assuming that you and the swing are in equilibrium, what is the tension in the left...