# Calculating Beam Deflection using Double Integration

by mm391
Tags: beam, deflection, double, integration
 P: 61 1. The problem statement, all variables and given/known data If the distributed force is removed from the beam in the picture attached and not considered, calculate the deflection at point D. 2. Relevant equations Double integration for deflection [V] 3. The attempt at a solution Moment = Ra*x-P(x-3*L) = Slope = 1/EI*((7p/4)*(x^2/2)-(Px^2/2)-(3PL)+c1) Deflection = 1/EI*((7p/4)*(x^3/6)-(Px^3/6)-(3PL)+(c1*x)+c2) Boundary Conditions to calculate c1 and c2 x=0=4L V=0 I am not sure of another boundary condition. I thought maybe x=2L Slope=0 but I do not think this is right. Attached Thumbnails
 HW Helper Thanks P: 5,212 Your boundary conditions at A and B are very curious. Since the beam is simply supported at both A and B, what BC must apply? (Hint: they will both be the same)
 P: 61 When x=0 V=0 or When x=4L V=0 This is because they are simply supported so therefore there can be no deflection at either end. But don't I need a BC for the slope. As there is an unknown slope at A and B how can I find one to use?
HW Helper
Thanks
P: 5,212

## Calculating Beam Deflection using Double Integration

I'm confused. V usually represents the shear force. Are you using it to denote deflection?
 HW Helper Thanks P: 5,212 I reread your OP. You can still use the BCs for deflection at A and B since you have only two unknown constants of integration.
 P: 61 Sorry out lecturer started using V for deflection but I see in most text books it is U. How can i calculate C1 if I don't have a boundary condition for a slope?
 HW Helper Thanks P: 5,212 You can't specify a slope for a simply supported beam. Your two BCs are the deflections at A and B, both of which are zero.
 P: 61 From my boundary conditions I have: c1=-PL^2/8 c2= 3PL Using these I still have the wrong answer for the defelction at D. Can anyone see where I maybe going wrong?
 HW Helper Thanks P: 5,212 What reactions did you calculate at A and B?
 P: 61 I made a mistake. I worked out the reactions which included the Distributed load. The question asks us to ignore the distributed load. In which case my reactions are: Reactions@A= P/4 Reactions @B=3P/4 The of the beam from the left hand side of P is (P/4)*x = M1 The moment from 3L
 HW Helper Thanks P: 5,212 Two boundary conditions are sufficient, since there are only two constants of integration. The BCs at the ends are easily determined by inspection. Although there is a point of zero slope somewhere between A and B, it may not necessarily be at x = 3l.

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