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For the beam shown below, assume that E/= 6 x 104 kN-m² is constant through the leng beam. If a= 2 m, b=6 m and c= 3 m and the distributed load w = 5.6 kN/m: a) determine beam slope at C. Enter your answer in rad to 5 decimal places. A a B W b C C H X

For the beam shown below, assume that E/= 6 x 104 kN-m² is constant through the leng beam. If a= 2 m, b=6 m and c= 3 m and the distributed load w = 5.6 kN/m: a) determine beam slope at C. Enter your answer in rad to 5 decimal places. A a B W b C C H X

Elements Of Electromagnetics
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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How do i solve a) and b)?

b) determine the beam deflection at point H. Enter your answer in mm to 2 decimal places.
Transcribed Image Text:b) determine the beam deflection at point H. Enter your answer in mm to 2 decimal places.
For the beam shown below, assume that E/= 6 × 104 kN-m² is constant through the length of the beam. If a= 2 m, b= 6 m and c= 3 m and the distributed load w = 5.6 kN/m: a) determine beam slope at C. Enter your answer in rad to 5 decimal places. A a B W b C C H X
Transcribed Image Text:For the beam shown below, assume that E/= 6 × 104 kN-m² is constant through the length of the beam. If a= 2 m, b= 6 m and c= 3 m and the distributed load w = 5.6 kN/m: a) determine beam slope at C. Enter your answer in rad to 5 decimal places. A a B W b C C H X
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