You decide to hang a plant from a 1.5-m-long 2.9-kghorizontal beam that is attached by a hinge to the wall on the left. A cable attached to the right end goes 35 ∘above the beam to a connecting point above the hinge on the wall. You hang a 100-N pot from the beam 1.4 maway from the wall. What is the force that the cable exerts on the beam?
You decide to hang a plant from a 1.5-m-long 2.9-kghorizontal beam that is attached by a...
You decide to hang a plant from a 1.5-m-long30-kg horizontal beam that is attached by a hinge to the wall on the left. A cable attached to the right end goes 37" above the beam to a connecting point above the hinge on the wall You hang a 100-N pot from the beam 1.4 m away from the wall as shown in (Figure 1). What is the force that the cable exerts on the beam? Express your answer with the...
A 4-m long, 150-kg steel beam is attached to a wall with one end connected to a hinge that allows the beam to rotate up and down. The other end of the beam is held in a horizontal position with a cable that makes a 27° angle with the beam and is attached to the wall. A mass of 75 kg is hung from the beam 3 meters away from the hinge (see (Figure 2)). What is the vertical component of...
Problem #2: 25 points A 24m long, horizontal beam is attached to a wall by a hinge. A support cable, 26 m long, is attached to the other end of the beam and attached to the wall 10m above the hinge, forming a 5, 12, 13 right triangle (HINT: leave sin and cos as a simple ratio of integers). The load hanging from the very end of the beam is 1000 Kg and the beam has a mass of 300Kg....
A 4-m long, 150-kg steel beam is attached to a wall with one end connected to a hinge that allows the beam to rotate up and down. The other end of the beam is held in a horizontal position with a cable that makes a 27° angle with the beam and is attached to the wall. A mass of 75 kg is hung from the beam 3 meters away from the hinge (see (Figure 2)). Now what is the tension force...
A 4-m long, 150-kg steel beam is attached to a wall with one end connected to a hinge that allows the beam to rotate up and down. The other end of the beam is held in a horizontal position with a cable that makes a 27° angle with the beam and is attached to the wall (see (Figure 1)). What is the tension force that keeps this beam in static equilibrium?
a uniform 2.86 m long beam of mass M is attached to a wall by a frictionless pivot at A. There is a cable attached at B, which is 1.93 m from A, and at C, which is 1.16 m above A as shown. The forces at A and the mass M are unknown, but the tension T in the cable is 874 N. Calculate the mass M of the beam and the horizontal force Ax at the pivot.
A uniform 100 N beam that is 10 m long is attached to a wall by a cable as shown in the figure below. A small but dense 50 N weight is placed on the beam 6 m from the wall and the system is in equilibrium. Find the horizontal and vertical reaction force from the wall. 6 m 30° 10 m
A 12.0 m uniform beam is hinged to a vertical wall and held horizontally by a 5.00 m cable attached to the wall 4.00 m above the hinge, as shown in the figure below (Figure 1).The metal of this cable has a test strength of 0.900 kN which means that it will break if the tension in it exceeds that amount. You may want to review For related problem solving tips and strategies, you may want to view a Video...
As shown below, a beam of mass M = 34 kg and length L = 6.8 m is attached to a vertical wall by a hinge and to a horizontal ceiling by a cable. The angle between the beam and the wall is theta = 75 degree, the angle between the cable and the ceiling is phi = 58 degree, and the cable is attached to the beam at a point which is a distance s = 2.2 m from...
2) See Figure 2. A 35 kg sign is suspended from the end of a uniform horizontal beam that has a mass of 25 kg and a length of 3.0 m. The beam is attached to a wall by a hinge. A cable with negligible mass is attached to the end of the beam just above the sign and extends to the wall, forming an angle of 30° with the beam. cable beam Physics is Phun Figure 2 a) Sketch...