Page 605.Consider the Figure9.9 (a)of Concept Problem 9.1,whichis a prismatic cantilever beam with a single load P applied at point A.

First, solve theConcept Problem9.1as stated.b.Now let’s add a downward uniformly distributed load of w per unit length and solve the problem.

c.With the results of b,assume now thatthe load P points upward. Under thiscase, what iswas a functionofP in order tohavezero displacement at point A?What is the slope at Points Aand B?

d.Can you think of a different structure that would have the samedeflection profileas inc, with theappropriate boundary conditions. Explain in detail but concisely.

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A (a) B [x = L,8=0] [x = Ly=0] B Fig. 9.9 (a) Cantilever beam with end load. (b) Free-body diagram of section AC. (c) Deformed shape and boundary conditions. X Concept Application 9.1 The cantilever beam AB is of uniform cross section and carries a load P at its free end A (Fig. 9.9a). Determine the equation of the elastic curve and the deflection and slope at A. Using the free-body diagram of the portion AC of the beam (Fig. 9.9b), where C is located at a distance x from end A, M =-Px (1) Substituting for M into Eq. (9.4) and multiplying both members by the constant El gives Integrating in x, EI which we carry back into Eq. (2): dy dx dy EI =-Px²+C₁ dx Now observe the fixed end B where x = L and 0 = dy/dx = 0 (Fig. 9.9c). Substituting these values into Eq. (2) and solving for C₁ gives C₁ =PL² EI YA = Integrating both members of Eq. (3). =-Px y= PL² 3EI El y =-Px²+ PL²x + C₂ But at B, x = L, y = 0. Substituting into Eq. (4), 0=-PL³ ++PL² + C₂ C₂ = -PL²³ -Px²+ PL² P 6EI Carrying the value of C₂ back into Eq. (4), the equation of the elastic curve is El y=-Px²+PL²x - PL² (-x+ 3L²x - 21³) and The deflection and slope at A are obtained by letting x = 0) in Eqs. (3) and (5). 0₁ = (2) dx A (3) PL² 2EI (4) (5)