MECHANICS OF MATERIALS
MECHANICS OF MATERIALS
11th Edition
ISBN: 9780137605521
Author: HIBBELER
Publisher: RENT PEARS
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Chapter 12, Problem 1RP

Determine the equation of the elastic curve. Use discontinuity functions EI is constant.

Chapter 12, Problem 1RP, Determine the equation of the elastic curve. Use discontinuity functions EI is constant.

Expert Solution & Answer
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To determine
The Equation of the elastic curve.

Answer to Problem 1RP

The Equation of the elastic curve is,

v=1EI[30x3+46.25(x12)311.7(x24)3+38703.24x412,598.88]lbin3_.

Explanation of Solution

Given information:

The length of the beam is 60 in..

EI is constant.

Calculation:

Sketch the Free Body Diagram of the beam as shown in Figure 1.

MECHANICS OF MATERIALS, Chapter 12, Problem 1RP

Refer to Figure 1.

Find the support reaction as shown below.

Apply the Equations of Equilibrium as shown below.

Take moment about A is Equal to zero.

MA=0By×4870×12+180×12=048By+1,320=0By=27.5lb

Summation of forces along vertical direction is Equal to zero.

Fy=0Ay27.518070=0Ay277.5=0Ay=277.5lb

Consider the x distance from left support.

Take moment about the section as shown below.

M(x)=180(x0)(277.5)×(x12)70×(x24)=180x+277.5(x12)70(x24)

Apply the slope and elastic curve as shown below.

EId2vdx2=M(x) (1)

Here, EI is the flexural rigidity, d2vdx2 is the second derivatives of the function v, and M(x) is the moment at the section x.

Substitute 180x+277.5(x12)70(x24) for M(x) in Equation (1).

EId2vdx2=180x+277.5(x12)70(x24)

Integrate both sides of the Equation.

EId2vdx2=(180x+277.5(x12)70(x24))EIdvdx=180x22+277.5(x12)2270(x24)22+C1EIdvdx=90x2+138.75(x12)235(x24)2+C1 (2)

Integrate both sides of the Equation (2).

EIdvdx=(90x2+138.75(x12)235(x24)2+C1)EIv=90x33+138.75(x12)3335(x24)33+C1x+C2EIv=30x3+46.25(x12)311.67(x24)3+C1x+C2 (3)

Apply the boundary conditions as shown below.

  1. i. The value of v=0 at x=12in..
  2. ii. The value of v=0 at x=60in..

Apply boundary condition (i) in Equation (3).

Substitute 0 for v and 12 I              n. for x in Equation (3).

EI(0)=30(12)3+46.25(1212)3+C1×12+C212C1+C251,840=0 (4)

Apply boundary condition (ii) in Equation (3).

Substitute 0 for v and 60 in. for x in Equation (3).

EI(0)=30(60)3+46.25(6012)311.67(6024)3+C1(60)+C260C1+C21,909,595.52=0 (5)

Solving Equations (4) and (5) we get,

C1=38703.24C2=412,598.88

Substitute 38703.24 for C1 and 412,598.88 for C2 in Equation (3).

EIv=[30x3+46.25(x12)311.67(x24)3+38703.24x412,598.88]v=1EI[30x3+46.25(x12)311.67(x24)3+38703.24x412,598.88]lbin3

Therefore, the Equation of the elastic curve is,

v=1EI[30x3+46.25(x12)311.67(x24)3+38703.24x412,598.88]lbin3_.

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