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.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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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=](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5466cad2-e352-4279-9db8-4a3b89103e87%2F36fe1964-931e-4616-9424-ef72376b8237%2F1cvqj3v_processed.png&w=3840&q=75)
Transcribed Image Text: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=
Transcribed Image Text: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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