In figure 1, a beam is supported by a pin support at A and a roller support at C. There is a distributed load acting between points A and B. The distributed load has a linearly increasing strength, with the maximum strength 8 kN/m at point B. (a) Write a function w(x), which describes the strength of the distributed load from A to B, where x is the distance along the beam from point A. (b) Using equilibrium of the full beam, find the support forces at A and B. (c) First section: Make an arbitrary cut between points A and B. Take the distance of the cut to be x along the beam from point A. Draw the free-body diagram for the left section and find functions for the internal shear force, V(x), and bending moment, M(x), in the section of the beam between A and B. (d) Second section: Repeat part (c) for the section of the beam between B and C. Take x to still be the distance from point A. pin (e) Sketch the shear and bending moment diagrams. 5 m 8 kN/m B 2 m roller

In figure 1, a beam is supported by a pin support at A and a roller support at C. There is a distributed load acting between points A and B. The distributed load has a linearly increasing strength, with the maximum strength 8 kN/m at point B. (a) Write a function w(x), which describes the strength of the distributed load from A to B, where x is the distance along the beam from point A. (b) Using equilibrium of the full beam, find the support forces at A and B. (c) First section: Make an arbitrary cut between points A and B. Take the distance of the cut to be x along the beam from point A. Draw the free-body diagram for the left section and find functions for the internal shear force, V(x), and bending moment, M(x), in the section of the beam between A and B. (d) Second section: Repeat part (c) for the section of the beam between B and C. Take x to still be the distance from point A. pin (e) Sketch the shear and bending moment diagrams. 5 m 8 kN/m B 2 m roller

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter2: Axially Loaded Members

Section: Chapter Questions

Problem 2.2.21P: Solve the preceding problem for the following data: b = 8.0 in., k = 16 lb/in., a = 45°, and P = 10...

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Concept explainers

Plane Trusses

It is defined as, two or more elements like beams or any two or more force members, which when assembled together, behaves like a complete structure or as a single structure. They generally consist of two force member which means any component structure where the force is applied only at two points. The point of contact of joints of truss are known as nodes. They are generally made up of triangular patterns. Nodes are the points where all the external forces and the reactionary forces due to them act and shows whether the force is tensile or compressive. There are various characteristics of trusses and are characterized as Simple truss, planar truss or the Space Frame truss.

Equilibrium Equations

If a body is said to be at rest or moving with a uniform velocity, the body is in equilibrium condition. This means that all the forces are balanced in the body. It can be understood with the help of Newton's first law of motion which states that the resultant force on a system is null, where the system remains to be at rest or moves at uniform motion. It is when the rate of the forward reaction is equal to the rate of the backward reaction.

Force Systems

When a body comes in interaction with other bodies, they exert various forces on each other. Any system is under the influence of some kind of force. For example, laptop kept on table exerts force on the table and table exerts equal force on it, hence the system is in balance or equilibrium. When two or more materials interact then more than one force act at a time, hence it is called as force systems.

Question

In figure 1, a beam is supported by a pin support at A and
a roller support at C. There is a distributed load acting between points
A and B. The distributed load has a linearly increasing strength, with
the maximum strength 8 kN/m at point B.
(a) Write a function w(x), which describes the strength of
the distributed load from A to B, where x is the distance along
the beam from point A.
(b) Using equilibrium of the full beam, find the support
forces at A and B.
(c) First section: Make an arbitrary cut between points
A and B. Take the distance of the cut to be x along the beam
from point A. Draw the free-body diagram for the left section
and find functions for the internal shear force, V(x), and bending
moment, M(x), in the section of the beam between A and B.
(d) Second section: Repeat part (c) for the section of the
beam between B and C. Take x to still be the distance from point
A.
(e) Sketch the shear and bending moment diagrams.
pin
5 m
8 kN/m
B
+
2 m
C
roller

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