15. If M0 = 400 kNm, determine the value of L so that the maximum deflection is 10 mm.16. Determine if L = 8 meters, determine the value of M0 so that the maximum deflection is 10 mm.Solve for me all situations ok Situation 4:Considering the beam provided below,E = 200 GPa and I = 0.0015 m.PL/2.10. If the maximum deflection islimited to 20 mm only and P = 500 kN,determine the value of L.12 m-L/2-11. If the maximum deflection islimited to 20 mm only and L = 10meters, determine the value of P.Situation 5:A beam shown below supports atriangular distributed load togetherwith a load and moment at the end ofthe overhang. The beam has the cross-section given and is made from steelwith E 200 GPa.50 kN/m8maxMo40 KNB60 kN-m12. Assuming all loads are increasedby 10%, Determine thedeflectionmaximum►T13. Assuming all loads are decreasedby 15%, Determine the maximumdeflection.M₂C190 20 19014. Assuming the triangular load wereincreased by 15% and the concentratedload and moment were increased by 30%,Determine the maximum deflection.Situation 6:Considering the beam provided: EI =400 MNM².Beam Cross-Section(all dimensions in mm)10D380

Note : As per bartleby guidelines, only 1st question among multiple questions posted need to be…

Situation 4: Considering the beam provided below, E = 200 GPa and I = 0.0015 m². P 1/2- -1/2- 8max 10. If the maximum deflection is limited to 20 mm only and P = 500 kN, determine the value of L. 11. If the maximum deflection is limited to 20 mm only and L = 10 meters, determine the value of P.

Situation 4: Considering the beam provided below, E = 200 GPa and I = 0.0015 m². P 1/2- -1/2- 8max 10. If the maximum deflection is limited to 20 mm only and P = 500 kN, determine the value of L. 11. If the maximum deflection is limited to 20 mm only and L = 10 meters, determine the value of P.

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Question

15. If M0 = 400 kNm, determine the value of L so that the maximum deflection is 10 mm. 16. Determine if L = 8 meters, determine the value of M0 so that the maximum deflection is 10 mm. Solve for me all situations ok

Situation 4:
Considering the beam provided below,
E = 200 GPa and I = 0.0015 m.
P
L/2.
10. If the maximum deflection is
limited to 20 mm only and P = 500 kN,
determine the value of L.
12 m
-L/2-
11. If the maximum deflection is
limited to 20 mm only and L = 10
meters, determine the value of P.
Situation 5:
A beam shown below supports a
triangular distributed load together
with a load and moment at the end of
the overhang. The beam has the cross-
section given and is made from steel
with E 200 GPa.
50 kN/m
8max
Mo
40 KN
B
60 kN-m
12. Assuming all loads are increased
by 10%, Determine the
deflection
maximum
►T
13. Assuming all loads are decreased
by 15%, Determine the maximum
deflection.
M₂
C
190 20 190
14. Assuming the triangular load were
increased by 15% and the concentrated
load and moment were increased by 30%,
Determine the maximum deflection.
Situation 6:
Considering the beam provided: EI =
400 MNM².
Beam Cross-Section
(all dimensions in mm)
10
D
380

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