STRENGTH OF MATERIALS UPVOTE WILL BE GIVEN. Please write the complete solutions legibly. Answer in 3 Decimal Places. Box the final answer. The steel beam of A992 (Fy = 350MPa and Fu=450 MPa) steel is loaded with service loads as shown in the figure. The uniform service dead loads include the beam self-weight. The beam is laterally braced only at the supports and at 3 m from the left support. The total deflection (DL + LL) must not exceed L/240 where L is the distance between supports. Assume that the maximum deflection occurs at midspan between supports. Consider moment, shear, and deflection. Es=200,000 MPa. Use LRFD Answer the following: a. Determine the reaction R₂ in kN. b. Determine the maximum moment in the beam in kN-m. c. Determine the value of C in the beam.
STRENGTH OF MATERIALS UPVOTE WILL BE GIVEN. Please write the complete solutions legibly. Answer in 3 Decimal Places. Box the final answer. The steel beam of A992 (Fy = 350MPa and Fu=450 MPa) steel is loaded with service loads as shown in the figure. The uniform service dead loads include the beam self-weight. The beam is laterally braced only at the supports and at 3 m from the left support. The total deflection (DL + LL) must not exceed L/240 where L is the distance between supports. Assume that the maximum deflection occurs at midspan between supports. Consider moment, shear, and deflection. Es=200,000 MPa. Use LRFD Answer the following: a. Determine the reaction R₂ in kN. b. Determine the maximum moment in the beam in kN-m. c. Determine the value of C in the beam.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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STRENGTH OF MATERIALS
UPVOTE WILL BE GIVEN. Please write the complete solutions legibly. Answer in 3 Decimal Places. Box the final answer.
The steel beam of A992 (Fy = 350MPa and Fu=450 MPa) steel is loaded with service loads as shown in the figure. The uniform service dead loads include the beam self-weight. The beam is laterally braced only at the supports and at 3 m from the left support. The total deflection (DL + LL) must not exceed L/240 where L is the distance between supports. Assume that the maximum deflection occurs at midspan between supports. Consider moment, shear, and deflection. Es=200,000 MPa. Use LRFD
Answer the following:
a. Determine the reaction R₂ in kN.
b. Determine the maximum moment in the beam in kN-m.
c. Determine the value of C in the beam.
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