The beam is subjected to the distributed loads shown andsupported by a rocker at C and a pin at A. Point D is locatedhalfway between A and B. Point E is located halfwaybetween B and C.A. Draw both FBDs (above and below cut) you could useto solve for the internal axial force (AD), shear force(VD), and bending moment (MD) at point D.B. Draw both FBDs (left and right of cut) you could use tosolve for the internal axial force (AE), shear force (VE),and bending moment (ME) at point E.Ensure all internal loads (A, V, & M) on FBDs are drawn inthe assumed positive direction. Represent distributed loadsas equivalent point forces. You do not need to solve forinternal loads, just draw the FBDs.200 N/m200 N/mB5 mE6 m100 N/mC

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Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Question

The beam is subjected to the distributed loads shown and
supported by a rocker at C and a pin at A. Point D is located
halfway between A and B. Point E is located halfway
between B and C.
A. Draw both FBDs (above and below cut) you could use
to solve for the internal axial force (AD), shear force
(VD), and bending moment (MD) at point D.
B. Draw both FBDs (left and right of cut) you could use to
solve for the internal axial force (AE), shear force (VE),
and bending moment (ME) at point E.
Ensure all internal loads (A, V, & M) on FBDs are drawn in
the assumed positive direction. Represent distributed loads
as equivalent point forces. You do not need to solve for
internal loads, just draw the FBDs.
200 N/m
200 N/m
B
5 m
E
6 m
100 N/m
C

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