volume of an object as a function of time is calculated by V-Ap+B/t, where t is...
Problem 4 Use the conjugate beam method to determine the slope and deflection at point B of the beam shown. E- 29,000 ksi. I-3,000 in4. 2 k/ft 30 ft
can someone help me with this problem?
Using either regular functions or singularity functions
determine the deflection at point C of the below beam.
Forces on the beam:
F1= 6 (k), F2 = 8 (k), F3 = 4 (k)
The reactions for the beam are:
R(A) = 10.08695652173913 (k), R(E) = 7.913043478260869 (k)
Assume: E = 29000 ksi and I = 750 in4
Show all work. Equations for shear, moment, slope of the elastic
curve and deflection must be shown....
Use Method of Virtual Work.
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P1 P2 А B a b Moment of Inertia 1=11 Moment of Inertia 2=12 For the Beam Shown: Use the DOUBLE INTEGRAL METHOD to determine the deflection at end in inches. For downward deflection enter a negative value. a-11 ft b5ft Moment of inertia 1-11-1.739 in Moment of Inertia 2-12-2,569 in P1=27kip P2=29 kip E 29,000 ksi
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