VECTOR MECHANIC
VECTOR MECHANIC
12th Edition
ISBN: 9781264095032
Author: BEER
Publisher: MCGRAW-HILL HIGHER EDUCATION
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Chapter 10.1, Problem 10.6P

A spring of constant 15 kN/m connects points C and F of the linkage shown. Neglecting the weight of the spring and linkage, determine the force in the spring and the vertical motion of point G when a vertical downward 120-N force is applied (a) at point E, (b) at points E and F.

Chapter 10.1, Problem 10.6P, A spring of constant 15 kN/m connects points C and F of the linkage shown. Neglecting the weight of

Fig. P10.5 and P10.6

(a)

Expert Solution
Check Mark
To determine

Find the force in the spring and the vertical motion of point G when a vertical load of 120N force is applied at point E.

Answer to Problem 10.6P

The force in the spring is 120N(C)_.

The vertical motion of point G is 16mm()_.

Explanation of Solution

Given information:

The spring constant is k=15kN/m.

Calculation:

Show the free-body diagram of the spring assembly as in Figure 1.

VECTOR MECHANIC, Chapter 10.1, Problem 10.6P

Write the relation of the deflections at point G, H, F, E, D with C as follows;

yG=4yC;δyG=4δyC

yH=4yC;δyH=4δyCyF=3yC;δyF=3δyCyD=2yC;δyD=2δyCyE=2yC;δyE=2δyC

The deflection Δ of the spring is;

Δ=yFyC=3yCyC=2yC

Assume the spring force Q is in tension.

Find the force in the spring Q using the relation.

Q=+kΔ

Here, the spring constant is k.

Substitute 15kN/m for k and 2yC for Δ.

Q=15(2yC)=30yC (1)

Use the virtual work principle:

δU=0CδyC+QδyCQδyFFδyFHδyHEδyE=0

Here, E=120N;F=0;H=0;C=0

Substitute 0 for C, 3δyC for δyF, 0 for F, 0 for H, 4δyC for δyH, 120 N for E, and 2δyC for δyE.

(0)δyC+QδyCQ(3δyC)(0)(3δyC)(0)(4δyC)120(2δyC)=00+Q3Q00240=02Q=240Q=120N

Q=120N(C)

The spring force Q is in compression. The assumption is incorrect.

Therefore, the force in the spring is 120N(C)_.

Substitute –120 N for Q in Equation (1).

120=30yCyC=4mm

Find the vertical motion (yG) of point G using the relation.

yG=4yC

Substitute –4 mm for yC.

yG=4(4)=16mm=16mm()

Therefore, the vertical motion of point G is 16mm()_.

(b)

Expert Solution
Check Mark
To determine

Find the force in the spring and the vertical motion of point G when a vertical load of 120-N force is applied at point E and F.

Answer to Problem 10.6P

The force in the spring is 300N(C)_.

The vertical motion of point G is 40mm()_.

Explanation of Solution

Given information:

The spring constant is k=15kN/m.

Calculation:

Use the virtual work principle:

δU=0CδyC+QδyCQδyFFδyFHδyHEδyE=0

Here, E=120N;F=120N;H=0;C=0

Substitute 0 for C, 3δyC for δyF, 120 N for F, 0 for H, 4δyC for δyH, 120 N for E, and 2δyC for δyE.

(0)δyC+QδyCQ(3δyC)(120)(3δyC)(0)(4δyC)(120)(2δyC)=00+Q3Q3600240=02Q=600Q=300N

Q=300N(C)

The spring force Q is in compression. The assumption is incorrect.

Therefore, the force in the spring is 300N(C)_.

Substitute –300 N for Q in Equation (1).

300=30yCyC=10mm

Find the vertical motion (yG) of point G using the relation.

yG=4yC

Substitute –10 mm for yC.

yG=4(10)=40mm=40mm()

Therefore, the vertical motion of point G is 40mm()_.

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Chapter 10 Solutions

VECTOR MECHANIC

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