We know that the bending moment in the reinforced concrete beam is 200kNm and that the modulus of elasticity is 25GPa for the concrete and 200GPa for the steel, calculate (a) the stress in the steel, (b) the maximum stress in the concrete. 750-300 225 418 l-125 = 5:1755 95-m diameter 750 mm 300 MER 600 mm 125 min 600 mu

We know that the bending moment in the reinforced concrete beam is 200kNm and that the modulus of elasticity is 25GPa for the concrete and 200GPa for the steel, calculate (a) the stress in the steel, (b) the maximum stress in the concrete. 750-300 225 418 l-125 = 5:1755 95-m diameter 750 mm 300 MER 600 mm 125 min 600 mu

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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Concept explainers

Types and properties of steel

Steel is an alloy of iron. It is formed by heating iron and combining carbon (0.1-1.7%) with it and minor amounts of other elements such sulfur, chromium, manganese, nickel, etc. Thousands of steel grades have been published, registered, or regulated around the world, each with its chemical composition, and special numbering systems have been devised in various countries to classify the vast number of alloys.

Question

5
We know that the bending moment in the reinforced concrete beam
is 200kNm and that the modulus of elasticity is 25GPa for the
concrete and 200GPa for the steel, calculate (a) the stress in the steel,
(b) the maximum stress in the concrete.
750-300
225
448
l-125 = 5 975s
diameter
750 mm
300 MIN
...
600 mm
125 min
600 min

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