The uniform rod BC weighs 32.2 lb. The rod is connected to the frame D by a frictionless pin C and a cord AB as shown. Calculate the maximum value of the applied force P for which rod BC will not “rise up”. The uniform rod BC weighs 32.2 lb. The rodis connected to the frame D by a frictionlesspin C and a cord AB as shown. Calculate themaximum value of the applied force P forwhich rod BC will not "rise up".PSmooth

Given: The weight of the rod BC→W=32.2 lb Length of the rod BC→L=3 feet Because the force is applied…

The uniform rod BC weighs 32.2 lb. The rod is connected to the frame D by a frictionless pin C and a cord AB as shown. Calculate the maximum value of the applied force P for which rod BC will not "rise up". P. B D 3' 3 Smooth

The uniform rod BC weighs 32.2 lb. The rod is connected to the frame D by a frictionless pin C and a cord AB as shown. Calculate the maximum value of the applied force P for which rod BC will not "rise up". P. B D 3' 3 Smooth

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter4: Coplanar Equilibrium Analysis

Section: Chapter Questions

Problem 4.44P: The uniform ladder of weight W is raised slowly by applying a vertical force P to the rope at A....

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Concept explainers

Axial Load

When a bar of the uniform cross-section is acted by a load, such that the load acts along the longitudinal axis of the bar, such kinds of loadings are known as axial loadings. In general terms, a load is an external force acting on a component. An axial load acts perpendicular to the geometric cross-section of the component. Based on the direction of the application of the load, an axial load can be tensile or compressive. The analysis of bodies under the action of axial loads is generally studied under the branch of mechanics, known as statics.

Question

The uniform rod BC weighs 32.2 lb. The rod
is connected to the frame D by a frictionless
pin C and a cord AB as shown. Calculate the
maximum value of the applied force P for
which rod BC will not “rise up”.

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