Requirements:Make a MATLAB program that will satisfy thefollowing[1] Ask the user to input the deflectionequation, X, (=0), x, (=30), tolerance (=0.0005).[2] Solve for the position x at maximumdeflection using BM. Show a tabularpresentation of results similar to PROGRAMBISECTION.[3] Solve for the maximum deflection.[4] Display the following results:>>The maximum deflection isthat occurs atX= Maximum DeflectionDetermine the maximum deflection of the beam. Assume that a 30 inwooden beam has a vertical deflection (v) equation of:v= 0.4567x10 x' -0.12345x10 x -0.56789x10 x -0.02987x-8.where x is the position as indicated in the figureWood ChunksWoodenВeamHint: Determine the first derivative of v(x). Set it equal to zero andsolve for x. Solve for the maximum deflection.

Determine the maximum deflection of the beam. Assume that a wooden beam has a vertical deflection (v) equation of: v = 0.4567x10 x' -0.12345x10 $x°-0.56789x10 ´x* -0.02987x where x is the position as indicated in the figure Wood Chunks Wooden Вeam Hint: Determine the first derivative of v(x). Set it equal to zero a solve for x. Solve for the maximum deflection.

Determine the maximum deflection of the beam. Assume that a wooden beam has a vertical deflection (v) equation of: v = 0.4567x10 x' -0.12345x10 $x°-0.56789x10 ´x* -0.02987x where x is the position as indicated in the figure Wood Chunks Wooden Вeam Hint: Determine the first derivative of v(x). Set it equal to zero a solve for x. Solve for the maximum deflection.

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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Concept explainers

Beams

In structural engineering, a beam is a component made of a variety of materials (including steel alloys, and wood) that can resist loads applied laterally to the beam axis. Members, elements, rafters, shafts, and purlins are all terms used to describe beams.

Question

Requirements:
Make a MATLAB program that will satisfy the
following
[1] Ask the user to input the deflection
equation, X, (=0), x, (=30), tolerance (=0.0005).
[2] Solve for the position x at maximum
deflection using BM. Show a tabular
presentation of results similar to PROGRAM
BISECTION.
[3] Solve for the maximum deflection.
[4] Display the following results:
>>The maximum deflection is
that occurs at
X=

Maximum Deflection
Determine the maximum deflection of the beam. Assume that a 30 in
wooden beam has a vertical deflection (v) equation of:
v= 0.4567x10 x' -0.12345x10 x -0.56789x10 x -0.02987x
-8.
where x is the position as indicated in the figure
Wood Chunks
Wooden
Вeam
Hint: Determine the first derivative of v(x). Set it equal to zero and
solve for x. Solve for the maximum deflection.

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