A cantilever beam is of length 1,5 m, loaded by a concentrated force P at its tip as shown in the figure below, and is of circular cross section (R = 100 mm), having two symmetrically placed longitudinal holes as indicated. The material is titanium alloy, having an allowable working stress in bending of 500 MPa. a) Determine the reactions in the beam b) Determine the maximum allowable value of the vertical force P Radius of hole: R = 5 3 R B Radius = R = 100 mm 1.5 m
A cantilever beam is of length 1,5 m, loaded by a concentrated force P at its tip as shown in the figure below, and is of circular cross section (R = 100 mm), having two symmetrically placed longitudinal holes as indicated. The material is titanium alloy, having an allowable working stress in bending of 500 MPa. a) Determine the reactions in the beam b) Determine the maximum allowable value of the vertical force P Radius of hole: R = 5 3 R B Radius = R = 100 mm 1.5 m
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 cantilever beam is of length 1,5 m, loaded by a concentrated force P at its tip as shown
in the figure below, and is of circular cross section (R = 100 mm), having two
symmetrically placed longitudinal holes as indicated. The material is titanium alloy,
having an allowable working stress in bending of 500 MPa.
a) Determine the reactions in the beam
b) Determine the maximum allowable value of the vertical force P
R
Radius of hole = :
授
1.5 m
Radius = R = 100 mm
%3D](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1a2a85d8-7fe7-4a64-a3e0-c3f9755bd8bf%2Fe7200d90-f236-4dd7-a613-2ad0f4f5774b%2Fmd9lpao_processed.png&w=3840&q=75)
Transcribed Image Text:A cantilever beam is of length 1,5 m, loaded by a concentrated force P at its tip as shown
in the figure below, and is of circular cross section (R = 100 mm), having two
symmetrically placed longitudinal holes as indicated. The material is titanium alloy,
having an allowable working stress in bending of 500 MPa.
a) Determine the reactions in the beam
b) Determine the maximum allowable value of the vertical force P
R
Radius of hole = :
授
1.5 m
Radius = R = 100 mm
%3D
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