A uniform beam of mass 14.0 kg and length 1.00 m is suspended by a rope attached at a distance x = 17.0 cm from the right end of the beam as shown. The cable makes an angle ? = 29.0° with the beam. The other end of the beam is attached to a wall by a frictionless hinge. An object of mass m = 1.70 kg sits on the beam at a distance of 18.0 cm from the hinge. (a) Find the magnitude of the tension in the rope. (N) (b) Find the magnitude of the horizontal component of the force of the hinge on the beam. (N) (c) Find the magnitude of the vertical component of the force of the hinge on the beam. (N)
A uniform beam of mass 14.0 kg and length 1.00 m is suspended by a rope attached at a distance x = 17.0 cm from the right end of the beam as shown. The cable makes an angle ? = 29.0° with the beam. The other end of the beam is attached to a wall by a frictionless hinge. An object of mass m = 1.70 kg sits on the beam at a distance of 18.0 cm from the hinge. (a) Find the magnitude of the tension in the rope. (N) (b) Find the magnitude of the horizontal component of the force of the hinge on the beam. (N) (c) Find the magnitude of the vertical component of the force of the hinge on the beam. (N)
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter10: Rotational Motion
Section: Chapter Questions
Problem 30P
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A uniform beam of mass 14.0 kg and length 1.00 m is suspended by a rope attached at a distance x = 17.0 cm from the right end of the beam as shown. The cable makes an angle ? = 29.0° with the beam. The other end of the beam is attached to a wall by a frictionless hinge. An object of mass m = 1.70 kg sits on the beam at a distance of 18.0 cm from the hinge.
(a) Find the magnitude of the tension in the rope. (N)
(b) Find the magnitude of the horizontal component of the force of the hinge on the beam. (N)
(c) Find the magnitude of the vertical component of the force of the hinge on the beam. (N)
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