The beam shown in Figure 3 has an inclination of 30° from the horizontal axis and it is pinned at A and has a roller at B. The beam is subjected to a point load P perpendicular to AB and is located at a distance of 2.0m from support A. A moment M is to be applied at the free end C to ensure that the vertical reaction at A is zero. a) 4.0*P b) 2.5*P c) 6.0*P d) 2.0*P e) 0.5*P Is the magnitude of M equal to: 2.0 m P Figure 3 4.0 B 2.0m M с

Structural Analysis
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ISBN:9781337630931
Author:KASSIMALI, Aslam.
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Chapter2: Loads On Structures
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The beam shown in Figure 3 has an inclination of 30° from the horizontal axis and it is
pinned at A and has a roller at B. The beam is subjected to a point load P perpendicular to
AB and is located at a distance of 2.0m from support A. A moment M is to be applied at the
free end C to ensure that the vertical reaction at A is zero.
a) 4.0*P
b) 2.5*P
c) 6.0*P
d) 2.0*P
e) 0.5*P
Is the magnitude of M equal to:
2.0 m
Figure 3
4.0
B
2.0m
M
C
Transcribed Image Text:The beam shown in Figure 3 has an inclination of 30° from the horizontal axis and it is pinned at A and has a roller at B. The beam is subjected to a point load P perpendicular to AB and is located at a distance of 2.0m from support A. A moment M is to be applied at the free end C to ensure that the vertical reaction at A is zero. a) 4.0*P b) 2.5*P c) 6.0*P d) 2.0*P e) 0.5*P Is the magnitude of M equal to: 2.0 m Figure 3 4.0 B 2.0m M C
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