VECTOR MECH....F/ENGNRS-STATICS -CONNECT
VECTOR MECH....F/ENGNRS-STATICS -CONNECT
12th Edition
ISBN: 9781260689495
Author: BEER
Publisher: MCG CUSTOM
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Chapter 7.3, Problem 7.87P

For the beam and loading shown, (a) write the equations of the shear and bending-moment curves, (b) determine the magnitude and location of the maximum bending moment.

Chapter 7.3, Problem 7.87P, For the beam and loading shown, (a) write the equations of the shear and bending-moment curves, (b)

(a)

Expert Solution
Check Mark
To determine

To write the equations of the shear and bending moment curves.

Answer to Problem 7.87P

The equation for shear curve is V=14ω0L[3(xL)24(xL)+1] and the equation for bending moment curve is M=14ω0L2[(xL)32(xL)2+(xL)].

Explanation of Solution

Refer Fig P7.87.

Write the equation for the distributed load.

w=w0(1xL)w02(xL)=w0(13x2L) (I)

Here, w0 is the initial load, w is the load, and L is the length of the load.

Write the equation for change in shear moment with distance.

dVdx=w (II)

Here, V is the shear moment.

Write the equation for change in bending moment with distance.

dMdx=V (III)

Here, M is the bending moment.

Conclusion:

Calculate the change in shear moment with distance using equation (II) and thus, find the equation for the shear moment curve.

dVdx=w=w0(13x2L)V=w0(13x2L)dx=w0(x3x24L)+C1 (IV)

Calculate the change in bending moment with distance using equation (III) and thus find the equation for the bending moment curve.

dMdx=VM=Vdx=(w0x+34w0x2L+14w0L)dx=12w0x2+14w0x3L+14w0Lx+C2 (V)

Apply boundary condition to find C1.

At x=L

V=0w0(x3x24L)+C1=0C1=14w0L (V)

Apply boundary condition to find C2.

At x=0

M=C2=0 (VI)

Use equation (V) to find the equation for shear curve.

V=14ω0L[3(xL)24(xL)+1]

Use equation (VI) to find the equation for bending moment curve.

M=14ω0L2[(xL)32(xL)2+(xL)]

Therefore, the equation for shear curve is V=14ω0L[3(xL)24(xL)+1] and the equation for bending moment curve is M=14ω0L2[(xL)32(xL)2+(xL)].

(b)

Expert Solution
Check Mark
To determine

The magnitude and location of the maximum bending moment.

Answer to Problem 7.87P

The magnitude of the maximum bending moment is 127w0L2 and the location is at x=L3.

Explanation of Solution

The maximum absolute value of the bending moment can be found using the equation for the bending moment curve.

Write the equation to find the maximum bending moment.

dMdx=V=0

Conclusion:

Calculate the location of the maximum bending moment.

dMdx=V=00=[3(xL)24(xL)+1]=(3xL1)(xL1)x=L3and x=L (VI)

Calculate the maximum bending moment.

Mmax=14w0L2(12729+13)=127w0L2 (VI)

Therefore, the magnitude of the maximum bending moment is 127w0L2 and the location is at x=L3.

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Chapter 7 Solutions

VECTOR MECH....F/ENGNRS-STATICS -CONNECT

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Understanding Shear Force and Bending Moment Diagrams; Author: The Efficient Engineer;https://www.youtube.com/watch?v=C-FEVzI8oe8;License: Standard YouTube License, CC-BY
Bending Stress; Author: moodlemech;https://www.youtube.com/watch?v=9QIqewkE6xM;License: Standard Youtube License