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ШПППГ m

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Question

Determine the deflection at C and the slopes at the bearings A and B. EI is constant.

Expert Solution

Step 1

Given:

Lengths are given in figure.

Step 2

The equation for deflection at point B due to point A can be given by,

$\begin{array}{rcl} t_{B / A} & = & \frac{1}{2} (\frac{- P L}{2 E I}) (\frac{L}{2}) (\frac{L}{6}) \\ = & \frac{- P L^{3}}{48 E I} \end{array}$

The equation for deflection at point C due to point A can be given by,

$\begin{array}{rcl} t_{C / A} & = & \frac{1}{2} (\frac{- P L}{2 E I}) (\frac{L}{2}) (L) \\ = & \frac{- P L^{3}}{8 E I} \end{array}$

Step 3

The equation for net deflection at point C can be given by,

$Δ_{C} = |t_{C / A}| - (\frac{L}{\frac{L}{2}}) |t_{B / A}|$

Substitute the required values in the above equation to obtain the net deflection at C.

$Δ_{C} = |\begin{array}{rcl} \frac{- P L^{3}}{8 E I} \end{array}| - (2) |\begin{array}{rcl} \frac{- P L^{3}}{48 E I} \end{array}| Δ_{C} = \begin{array}{rcl} \frac{P L^{3}}{8 E I} \end{array} - \begin{array}{rcl} \frac{P L^{3}}{24 E I} \end{array} Δ_{C} = \begin{array}{rcl} \frac{P L^{3}}{12 E I} \end{array}$

Therefore, the deflection at point C is $\begin{array}{rcl} \frac{P L^{3}}{12 E I} \end{array}$ .

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