Determine C1.A.-54B.0C.54D.36Determine C2A.-130B.157C.0D.-148Find h.A.810.67 mmB.724.33 mmC.708.21 mmD.618.67 mm DOUBLE INTEGRATION METHODThe cantilever beam shown in the figure has a rectangular cross-section 50mm wide by "h" mm high. It is loaded by two concentrated loads P1 = 6 kNand P2 = 3 kN. The maximum deflection is not to exceed 10 mm. Use E = 10GPa.P₁P₂A2 m2 m

Given figure shows the cantilever beam carrying concentrated loads at different points. It is…

Answered: Determine C1. A.-54 B.0 C.54 D.36…

Determine C1. A.-54 B.0 C.54 D.36 Determine C2 A.-130 B.157 C.0 D.-148 Find h. A.810.67 mm B.724.33 mm C.708.21 mm D.618.67 mm

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Question

Determine C1.

A.-54

B.0

C.54

D.36

Determine C2

A.-130

B.157

C.0

D.-148

Find h.

A.810.67 mm

B.724.33 mm

C.708.21 mm

D.618.67 mm

DOUBLE INTEGRATION METHOD
The cantilever beam shown in the figure has a rectangular cross-section 50
mm wide by "h" mm high. It is loaded by two concentrated loads P1 = 6 kN
and P2 = 3 kN. The maximum deflection is not to exceed 10 mm. Use E = 10
GPa.
P₁
P₂
A
2 m
2 m

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