A uniform metal rod, with a mass of 3.3 kg and a length of 1.1 m, is attached to a wall by a hinge at its base. A horizontal wire bolted to the wall 0.58 m above the base of the rod holds the rod at an angle of 32 ∘ above the horizontal. The wire is attached to the top of the rod.
A. Find the tension in the wire.
B. Find the horizontal component of the force exerted on the rod by the hinge
C. Find the vertical component of the force exerted on the rod by the hinge.
A uniform metal rod, with a mass of 3.3 kg and a length of 1.1 m,...
A uniform metal rod, with a mass of 1.80 kg and a length of 1.90 m, is attached to a wall by a hinge at its base. A horizontal wire bolted to the wall 1.12 m above the base of the rod holds the rod at an angle of 36.1 degrees above the horizontal. The wire is attached to the top of the rod. Find the tension in the wire.
A uniform meta lrod, with a mass of 2.0 kg and al ength of 1.5m, is attached to a wall by a hinge at its base. A horizontal wire bolted to the wall 0.70 m above the base of the rod holds the rod at anangle of 28° above the horizontal. The wire is attached to the top of the rod. (a) Find the tension in the wire. Find (b) the horizontal and (c) the vertical components of the force...
A uniform rod is attached to a wall by a hinge at its base. The rod has a mass of 6.00 kq, a length of 1.55 m, is at an angle of 29.0° above the horizontal, and is held in place by a horizontal cord attached to the other end of the rod and bolted to the wall above the base of the rod. (a) Determine the tension in the cord. (b) Determine the horizontal and vertical components of the...
A uniform rod isa the other end of the rod and bolted to the wall above the base of the rod. to a wall by a hinge at its base. The rod has a mass of 3.75 kg, a length of 1.80 m, is at an angle of 23.0° above the and is held in place by a (a) Determine the tension in the cord (b) Determine the horizontal and vertical components of the force exerted on the rod by...
1. A uniform rod is attached to a wall by a hinge at its base. The rod has a mass of 9.0 kg, a length of 2.3 m, is at an angle of 23° above the horizontal, and is held in place by a horizontal cord attached to the other end of the rod and bolted to the wall above the base of the rod. (a) Determine the tension in the cord. A. What is the magnitude of the force...
A 45.0 kg uniform rod 4.40 m long is attached to a wall with a hinge at one end. The rod is held in a horizontal position by a wire attached to its other end. The wire makes an angle of 30.0 ∘ with the horizontal, and is bolted to the wall directly above the hinge. If the wire can withstand a maximum tension of 1300 N before breaking, how far from the wall can a 70.0 kg person sit...
2 pts Question 1 A uniform rod is attached to a wall by a hinge at its base. The rod has a mass of 9.0 kg, a length of 2.3 m, is at an angle of 23 above the horizontal, and is held in place by a horizontal cord attached to the other end of the rod and bolted to the wall above the base of the rod. (a) Determine the tension in the cord. 1 pts Question 2 What...
#4 please
A uniform sheet of metal in the shape of a hemisphere of radius 1 m is used as a sign. The hemisphere has a mass of 200 kg and is suspended by two vertical wires attached to points along its horizontal diameter. One wire is attached to the left end of the diameter and the other is attached to a point three-quarters of the way to the other end. What is the tension in each wire? A ladder...
5) Equilibrium of a rod A uniform horizontal rod of mass m and length L is in equilibrium, attached to a wall via a frictionless bearing and supported by a cable making an angle ? with the rod (see diagram). Determine the tension in the cable and the force exerted by the bearing.
3. A 50.0 kg uniform square sign, of edge length L2.00 m, is hung from a horizontal rod of length d, 3.00 m and negligible mass. A cable is attached to the end of the rod and to a point on the wall at distance d = 4.00 m above the point where the rod is hinged to the wall. (a) What is the tension in the cable? What are the (b) magnitude and (c) direction (left or right) of...