beam at C. Assume a constant value of El = 27 x 106 lb-ft² for the beam; wo = 7100 lb/ft, LAB = 6.5 ft, LBC = 14 ft, LcD = 8 ft. Wo X
beam at C. Assume a constant value of El = 27 x 106 lb-ft² for the beam; wo = 7100 lb/ft, LAB = 6.5 ft, LBC = 14 ft, LcD = 8 ft. Wo X
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
Related questions
Question
l4
![Current Attempt in Progress
For the beam and loading shown, use discontinuity functions to compute (a) the slope of the beam at B and (b) the deflection of the
beam at C. Assume a constant value of El = 27 x 106 lb-ft2 for the beam; wo = 7100 lb/ft, LAB= 6.5 ft, LBC = 14 ft, LcD = 8 ft.
WO
X
LBC
LCD
LAB
Answer:
(a) OB =
(b) vc =
B
rad
in.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7f86de2a-ef27-4082-b5bc-fe2c7012b4a1%2F0fb245fa-19ec-4c0f-93de-5fabc49c742f%2Fac06gik_processed.png&w=3840&q=75)
Transcribed Image Text:Current Attempt in Progress
For the beam and loading shown, use discontinuity functions to compute (a) the slope of the beam at B and (b) the deflection of the
beam at C. Assume a constant value of El = 27 x 106 lb-ft2 for the beam; wo = 7100 lb/ft, LAB= 6.5 ft, LBC = 14 ft, LcD = 8 ft.
WO
X
LBC
LCD
LAB
Answer:
(a) OB =
(b) vc =
B
rad
in.
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