A simply supported beam 60 mm wide by 100 mm high and 4 m long is subjected to a concentrated load of 800 N at a point 1 m from one of the supports. Determine the maximum fiber stress and the stress in a fiber located 10 mm from the top of the beam at midspan. A.1.) In Problem No. 1, determine the stress in a fiber located 10 mm from the top of the beam at 1 m from support A.
A simply supported beam 60 mm wide by 100 mm high and 4 m long is subjected to a concentrated load of 800 N at a point 1 m from one of the supports. Determine the maximum fiber stress and the stress in a fiber located 10 mm from the top of the beam at midspan. A.1.) In Problem No. 1, determine the stress in a fiber located 10 mm from the top of the beam at 1 m from support A.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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A.) A simply supported beam 60 mm wide by 100 mm high and 4 m long is subjected to a concentrated load of 800 N at a point 1 m from one of the supports. Determine the maximum fiber stress and the stress in a fiber located 10 mm from the top of the beam at midspan.
A.1.) In Problem No. 1, determine the stress in a fiber located 10 mm from the top of the beam at 1 m from support A.
A.2.) In Problem No. 1, determine the stress in a fiber 20 mm from the base of the beam at midspan.
A.3.) In problem No. 1, determine the stress in a fiber 20 mm from the base of the beam at 1m from support A.
A.4.) In problem No. 1, determine the stress in a fiber 20 mm from the top of the beam at midspan.
Transcribed Image Text:A.) A simply supported beam 60 mm wide by 100 mm high and 4 m long is
subjected to a concentrated load of s00 N at a point 1 m from one of the
supports. Determine the maximum fiber stress and the stress in a fiber located
10 mm from the top of the beam at midspan.
800 KN
60mm
1m
100mm
4.0 m
A.1.) In Problem No. 1, determine the stress in a fiber located 10 mm from
the top of the beam at 1 m from support A.
A.2.) In Problem No. 1, determine the stress in a fiber 20 mm from the base of
the beam at midspan.
A.3.) In problem No. 1, determine the stress in a fiber 20 mm from the base of
the beam at Im from support A.
A.4.) In problem No. 1, determine the stress in a fiber 20 mm from the top of
the beam at midspan.
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