PEARSON ETEXT ENGINEERING MECH & STATS
15th Edition
ISBN: 9780137514724
Author: HIBBELER
Publisher: PEARSON
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Take F = 310 N and d = 1.0 m
Determine the force in cable AC and AB needed to hold the 24-kg ball D in equilibrium.
Determine the unstretched length of spring AC if a force P = 801b causes the angle 8 = 60 ° for equilibrium. Cord AB is 2 ft long. Take k = 50 lb / ft.
The rope that makes up the system has a total length of 5 m.At D there is a load of weight W = 1320 N.Calculate the value of the load to be placed at B so that the system remains in equilibrium when S = 1,5 m.
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- The three cables are used to support 800- N lamp. Find the force in each cable for equilibrium. 4 m D 800 N 2m Barrow_forwardDetermine the ratio P/Q of the forces that are required to maintain equilibrium of the mechanism for an arbitrary angle 0. Neglect the weight of the mechanism.arrow_forwardUse the equilibrium equations.arrow_forward
- 3) If cable CD has 100 N of tension, determine the tension developed in the other two cables and the weight of the box. Assume the system is in equilibrium. 3 m Bo 4 m A 1 m 1 m 1 m y <2m²arrow_forwardDetermine the minimum tension in the rope at points A and B that is necessary to maintain equilibrium. Take µ = 0.3 between the rope and the fixed post D. 300 lb T D B 60° Aarrow_forwardIf the plate is to remain in equilibrium, find the tension for all the three cable that supports the plate weighing 2200kg. 2400 mm 1200 mm 1200 mm 1200 mm 2400 mmarrow_forward
- The crate has a mass of 130 kg. 1. Determine the tension developed in cable DA for equilibrium. 2. Determine the tension developed in cable DB for equilibrium. 3. Determine the tension developed in cable DC for equilibrium.arrow_forwardTHE 600 lb CRATE IS SUPPORTED BY THE THREE CABLES. FIND THE TENSION IN EACH CABLE.arrow_forwardIf d = 0.80 ft and the spring has an unstretched length of 1 ft, determine the force F required for equilibrium in Ibs. B 1 ft 1 ft k = 150 lb/ft A 1 ft 1 ft Darrow_forward
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