For the cantilever beam shown in the figure below, invoke the equilibrium of cut free-body sections of the beam to (a) write equations for the shear force and bending moment distributions as functions of x. Include a free-body diagram of each cut section and force and moment balance calculations. Examine the shear force and bending moment formulas and deduce the sign of the deformation within each inter- val. Include a sketch of a deformed material element that illustrates the shear and bending deformation within the interval. (b) Find the shear force of the largest magnitude in the beam and state where it occurs within the beam. (c) Find the bending moment of the largest magnitude in the beam and state where it occurs within the beam. 200 N/m- -0.6 m > X 600 N 0.2 m 0.2 m

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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For the cantilever beam shown in the figure below, invoke the equilibrium of cut free-body sections of
the beam to (a) write equations for the shear force and bending moment distributions as functions of x.
Include a free-body diagram of each cut section and force and moment balance calculations. Examine
the shear force and bending moment formulas and deduce the sign of the deformation within each inter-
val. Include a sketch of a deformed material element that illustrates the shear and bending deformation
within the interval. (b) Find the shear force of the largest magnitude in the beam and state where it
occurs within the beam. (c) Find the bending moment of the largest magnitude in the beam and state
where it occurs within the beam.
200 N/m
0.6 m-
X
600 N
0.2 m 0.2 m
Transcribed Image Text:For the cantilever beam shown in the figure below, invoke the equilibrium of cut free-body sections of the beam to (a) write equations for the shear force and bending moment distributions as functions of x. Include a free-body diagram of each cut section and force and moment balance calculations. Examine the shear force and bending moment formulas and deduce the sign of the deformation within each inter- val. Include a sketch of a deformed material element that illustrates the shear and bending deformation within the interval. (b) Find the shear force of the largest magnitude in the beam and state where it occurs within the beam. (c) Find the bending moment of the largest magnitude in the beam and state where it occurs within the beam. 200 N/m 0.6 m- X 600 N 0.2 m 0.2 m
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