A wooden beam is loaded by a distributed load ww = 6 N/mm as shown in Figure Q4(a). The cross-section of the beam is shown in Figure Q4(b). Assume that LAB = 3000 mm, LBC = 2000 mm, W=190 mm, B0 = 10 mm, and H = 220 mm, h0=40 mm. Units: use N, mm, MPa as consistent units for all calculations. Decimal points: any decimal points are fine a) What is the maximum magnitude of shear force and bending moment, neglecting the sign? Maximum magnitude of shear force, positive value: Maximum magnitude of bending moment, positive value: b) Determine the maximum bending stress and shear stress that occurs in the beam. Maximum bending stress: Maximum shear stress

A wooden beam is loaded by a distributed load ww = 6 N/mm as shown in Figure Q4(a). The cross-section of the beam is shown in Figure Q4(b). Assume that LAB = 3000 mm, LBC = 2000 mm, W=190 mm, B0 = 10 mm, and H = 220 mm, h0=40 mm. Units: use N, mm, MPa as consistent units for all calculations. Decimal points: any decimal points are fine a) What is the maximum magnitude of shear force and bending moment, neglecting the sign? Maximum magnitude of shear force, positive value: Maximum magnitude of bending moment, positive value: b) Determine the maximum bending stress and shear stress that occurs in the beam. Maximum bending stress: Maximum shear stress

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

6th Edition

ISBN:9781337094740

Author:Segui, William T.

Publisher:Segui, William T.

Chapter9: Composite Construction

Section: Chapter Questions

Problem 9.8.6P

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Question

Units: use N, mm, MPa as consistent units for all calculations.

Decimal points: any decimal points are fine

a) What is the maximum magnitude of shear force and bending moment, neglecting the sign?

Maximum magnitude of shear force, positive value:

Maximum magnitude of bending moment, positive value:

b) Determine the maximum bending stress and shear stress that occurs in the beam.

Maximum bending stress:

Maximum shear stress

(b)
(a)
hot
Во
H
C
LAB
LBC
Cross-section
W
B

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