The A-36 steel rod BC as shown in Figure Q3 has a diameter of 5X mm (X is a last digit of your matrix number) and is used as a strut to support the beam. The yield strength of material is oy = 250 MPa. Take modulus of elasticity E = 200 GPa. (a) Determine the maximum intensity w of the uniform distributed load that can be applied to the beam without causing the strut to buckle. Take factor of safety = 2 against buckling. Check whether Euler's equation is appropriate or not. (b) Then, calculate the new maximum intensity w if end condition for strut both fixed. B. 6 m- 3 m Fignre O3
The A-36 steel rod BC as shown in Figure Q3 has a diameter of 5X mm (X is a last digit of your matrix number) and is used as a strut to support the beam. The yield strength of material is oy = 250 MPa. Take modulus of elasticity E = 200 GPa. (a) Determine the maximum intensity w of the uniform distributed load that can be applied to the beam without causing the strut to buckle. Take factor of safety = 2 against buckling. Check whether Euler's equation is appropriate or not. (b) Then, calculate the new maximum intensity w if end condition for strut both fixed. B. 6 m- 3 m Fignre O3
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:Q3
The A-36 steel rod BC as shown in Figure Q3 has a diameter of 5X mm ( X is a last digit of
your matrix number) and is used as a strut to support the beam. The yield strength of
material is oy = 250 MPa. Take modulus of elasticity.E = 200 GPa.
(a) Determine the maximum intensity w of the uniform distributed load that can be applied
to the beam without causing the strut to buckle. Take factor of safety = 2 against
buckling. Check whether Euler's equation is appropriate or not.
(b) Then, calculate the new maximum intensity w if end condition for strut both fixed.
6 m
3 m
Figure Q3
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