Problem 1. The beam is shown below with a cross-section of 300 mm x 500 mm. Assuming modulus of elasticity of the material is 120 GPa. Use the double integration method to determine the following: a. The slope at the left support in degrees. b. The slope at the right support in degrees. C. The deflection at midspan. d. The maximum deflection of the beam. e. The location of the maximum deflection from the left support. 15 kN/m Y 2 m 30 kN/m B ♥ 2 m 4.5 m 50 kN/m
Problem 1. The beam is shown below with a cross-section of 300 mm x 500 mm. Assuming modulus of elasticity of the material is 120 GPa. Use the double integration method to determine the following: a. The slope at the left support in degrees. b. The slope at the right support in degrees. C. The deflection at midspan. d. The maximum deflection of the beam. e. The location of the maximum deflection from the left support. 15 kN/m Y 2 m 30 kN/m B ♥ 2 m 4.5 m 50 kN/m
Principles of Foundation Engineering (MindTap Course List)
8th Edition
ISBN:9781305081550
Author:Braja M. Das
Publisher:Braja M. Das
Chapter6: Vertical Stress Increase In Soil
Section: Chapter Questions
Problem 6.4P: Refer to Figure P6.4. A strip load of q = 900 lb/ft2 is applied over a width B = 36 ft. Determine...
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Transcribed Image Text:Problem 1. The beam is shown below with a cross-section of 300 mm x 500 mm. Assuming modulus of elasticity of the
material is 120 GPa. Use the double integration method to determine the following:
a. The slope at the left support in degrees.
b. The slope at the right support in degrees.
c. The deflection at midspan.
d. The maximum deflection of the beam.
e. The location of the maximum deflection from the left support.
15 kN/m
V
A
2 m
30 kN/m
2 m
-4.5 m-
50 kN/m
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