Two (2) beams are subjected to different loading condition and position as shown. w1 w2 P x1 x3 w1 kN/m x1 Moment at A= Vertical Reaction at B= Vertical Reaction at C = Horizontal Reaction at C = 5 12 12 2 4 35 3m KN-m B Nim Nim AN m m m deg Determine the Reactions at Fixed Support A, Roller Support B and Hinge Support C. ALL ANSWER3 IN ABO SULTE VALUE AND IN THREE (3) DECIMAL PLACES INCLUDING ZERO 8 Vertical Reaction at A= Horizontal Reaction at A= KN KN W2 kN/m KN 2m x3 1m с
Two (2) beams are subjected to different loading condition and position as shown. w1 w2 P x1 x3 w1 kN/m x1 Moment at A= Vertical Reaction at B= Vertical Reaction at C = Horizontal Reaction at C = 5 12 12 2 4 35 3m KN-m B Nim Nim AN m m m deg Determine the Reactions at Fixed Support A, Roller Support B and Hinge Support C. ALL ANSWER3 IN ABO SULTE VALUE AND IN THREE (3) DECIMAL PLACES INCLUDING ZERO 8 Vertical Reaction at A= Horizontal Reaction at A= KN KN W2 kN/m KN 2m x3 1m с
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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Transcribed Image Text:QUESTION 2
Two (2) beams are subjected to different loading condition and position as shown.
w1
W2
P
x1
x3
8
w1 kN/m
x1
5
12
12
2
4
4
35
3m
KN-m
kN/m
kN/m
KN
m
m
B
m
deg
KN
KN
KN
Determine the Reactions at Fixed Support A, Roller Support B and Hinge Support C.
ALL ANSWER 8 IN ABO SULTE VALUE AND IN THREE (3) DECIMAL PLACES INCLUDING ZERO 8
Vertical Reaction at A=
KN
Horizontal Reaction at A=
Moment at A =
Vertical Reaction at B =
Vertical Reaction at C =
Horizontal Reaction at C=
x2
3
W2 kN/m
2m
P
x3
1m
C
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