Determine the maximum reaction at support B, the maximum shear at point C and the maximum positive moment that can be developed at point C on the beam shown due to: "a single concentrate live load of 8000 N "a uniform live load of 3000 N/m (applied on specific area: say positive area or negative area only) "a beam weight (dead load) of 1000 N/m (applied on the entire beam) A C B 4 m 5m 4 m

Determine the maximum reaction at support B, the maximum shear at point C and the maximum positive moment that can be developed at point C on the beam shown due to: "a single concentrate live load of 8000 N "a uniform live load of 3000 N/m (applied on specific area: say positive area or negative area only) "a beam weight (dead load) of 1000 N/m (applied on the entire beam) A C B 4 m 5m 4 m

Steel Design (Activate Learning with these NEW titles from Engineering!)

6th Edition

ISBN:9781337094740

Author:Segui, William T.

Publisher:Segui, William T.

Chapter10: Plate Girders

Section: Chapter Questions

Problem 10.7.9P

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British Gravitational Bg System Of Units

Measuring is the comparison of a particular physical quantity with its reference value. A unit is a fixed physical quantity. The length is a physical quantity. A physical quantity is the product of a unit and the numerical value we need to compare with. 

Question

100%

the answers must be:

By = 49,111.11 N
Vcmax = -9277.78 N
+Mcmax = 54,222.22 N-m

Determine the maximum reaction at support B, the maximum shear at point C and the
maximum positive moment that can be developed at point C on the beam shown due
to:
"a single concentrate live load of 8000 N
"a uniform live load of 3000 N/m (applied on specific area: say positive area or negative
area only)
"a beam weight (dead load) of 1000 N/m (applied on the entire beam)
A
C
B
4 m
5m
4 m

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