For all the following problems, 3. a) b) You need to show at least 3 iterations calculated manually with all steps. You do not need to include the M.files for the bisection method (bisect.m) and for false position (falspos.m). You must, however, show the command lines for the given functions with their variables and other parameters. Deflection of a uniform beam Figure 3(a) shows a uniform beam subject to a linearly increasing distributed load. The equation for the resulting elastic curve is (see Fig. 3(b)): (-x5 + 2L²x³ - L^x) y = Wo 120EIL Use bisection method to determine the point of maximum deflection (i.e., the value of x where dy/dx = 0). Then substitute this value into the above equation to determine the value of the maximum deflection. Use the following parameter values in your computation: L = 600 cm, E = 50,000 kN/cm², I = 30,000 cm4, and wo = 2.5 kN/cm. (x = 0, y = 0) L (0) Wo (x = L₁y = 0) www. (b) Fig. 3: Deflection of a uniform beam.
For all the following problems, 3. a) b) You need to show at least 3 iterations calculated manually with all steps. You do not need to include the M.files for the bisection method (bisect.m) and for false position (falspos.m). You must, however, show the command lines for the given functions with their variables and other parameters. Deflection of a uniform beam Figure 3(a) shows a uniform beam subject to a linearly increasing distributed load. The equation for the resulting elastic curve is (see Fig. 3(b)): (-x5 + 2L²x³ - L^x) y = Wo 120EIL Use bisection method to determine the point of maximum deflection (i.e., the value of x where dy/dx = 0). Then substitute this value into the above equation to determine the value of the maximum deflection. Use the following parameter values in your computation: L = 600 cm, E = 50,000 kN/cm², I = 30,000 cm4, and wo = 2.5 kN/cm. (x = 0, y = 0) L (0) Wo (x = L₁y = 0) www. (b) Fig. 3: Deflection of a uniform beam.
Engineering Fundamentals: An Introduction to Engineering (MindTap Course List)
5th Edition
ISBN:9781305084766
Author:Saeed Moaveni
Publisher:Saeed Moaveni
Chapter15: Computational Engineering Tools Matlab
Section15.5: Symbolic Mathematics With Matlab
Problem 1BYG
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![For all the following problems,
3.
a)
b)
You need to show at least 3 iterations calculated manually with all steps.
You do not need to include the M.files for the bisection method (bisect.m) and for false position (falspos.m). You
must, however, show the command lines for the given functions with their variables and other parameters.
Deflection of a uniform beam
Figure 3(a) shows a uniform beam subject to a linearly increasing distributed load. The equation
for the resulting elastic curve is (see Fig. 3(b)):
-(-x5+2L²x³ - L^x)
y =
Wo
120EIL
Use bisection method to determine the point of maximum deflection (i.e., the value of x where dy/dx = 0).
Then substitute this value into the above equation to determine the value of the maximum deflection.
Use the following parameter values in your computation: L = 600 cm, E = 50,000 kN/cm²,
I = 30,000 cm4, and wo = 2.5 kN/cm.
(x = 0, y = 0)
(0)
Wo
(x = L₁y = 0)
(b)
Fig. 3: Deflection of a uniform beam.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9f9c13e2-5c54-4ec3-b4e3-dc49b76d4e30%2F5ed3de15-403f-4017-b8bd-20c8ce902a22%2F366ru2q_processed.jpeg&w=3840&q=75)
Transcribed Image Text:For all the following problems,
3.
a)
b)
You need to show at least 3 iterations calculated manually with all steps.
You do not need to include the M.files for the bisection method (bisect.m) and for false position (falspos.m). You
must, however, show the command lines for the given functions with their variables and other parameters.
Deflection of a uniform beam
Figure 3(a) shows a uniform beam subject to a linearly increasing distributed load. The equation
for the resulting elastic curve is (see Fig. 3(b)):
-(-x5+2L²x³ - L^x)
y =
Wo
120EIL
Use bisection method to determine the point of maximum deflection (i.e., the value of x where dy/dx = 0).
Then substitute this value into the above equation to determine the value of the maximum deflection.
Use the following parameter values in your computation: L = 600 cm, E = 50,000 kN/cm²,
I = 30,000 cm4, and wo = 2.5 kN/cm.
(x = 0, y = 0)
(0)
Wo
(x = L₁y = 0)
(b)
Fig. 3: Deflection of a uniform beam.
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