All units must be in KN or m. Situation #13 mEl is Constant (Assume El = 1 kN-m²)Y KN10 + AX KN4mB1. Determine the deviation of B with respect to the tangent at A2. Determine the deviation of A with respect to the tangent at B3. Determine the deviation under the load Y with respect to the tangent at A4. Determine the deviation under the load X with respect to the tangent at A5. Determine the deviation under the load Y with respect to the tangent at B6. Determine the deviation under the load X with respect to the tangent at B7. Determine the slope at A8. Determine the slope at B9. Determine the location of the maximum deflection from A10. Determine the maximum deflection11. Determine the angle in radians between the tangents at A and tangent at B12. Determine the angle in radians between the tangents at A and tangent under the load Y13. Determine the angle in radians between the tangents at A and tangent under the load XX=227Y= 38A-IB=2C=2DU

Given: X= 227, Y = 38, A= 1 Required: 1.Determine the deviation of B with respect to the tangent at…

Answered: Y KN -3m-7 10+ A X KN 4 m B 1.…

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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2. In engineering, the modulus of elasticity is a way to measure how much an object deforms along an axis when opposing forces are applied among that axis. The formula can be expressed as E (F2-F)Lo where E is (82-81)A' %3D the modulus of elasticity, F is the axial force, & is a deformation measure, Lo is the original length of the object, and A is the cross-sectional area. Part A: Reaange the elasticity formula to find the cross-sectional area, A.
A beam is constructed of two angle sections, each L5 x 3 x 1/2, which reinforce a 2 x 8 (actual dimensions) wood plank (see the cross section shown in the figure). The modulus of elasticity for the wood is E, = 1.2 x 10° psi and for steel is E, = 30 x 10° psi. Assume that the component parts of the beams are securely bonded by adhesives or connected by fasteners. Also, use the transformed-section method in the solutions. 2 x 8 wood plank 5 in 3 in. Steel angles Find the allowable bending moment Mallow for the beam if the allowable stress in the wood is Ow = 1300 psi and in the steel is o = 10,500 psi. Dimensions and properties of the angles: I, = 9.43 in.*, d = 1.74 in. and A, = 3.75 in." (Note: Disregard the weight of the beam). Round your answer to one decimal place. Mallow = k. in.

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