Vector Mechanics for Engineers: Statics, 11th Edition
Vector Mechanics for Engineers: Statics, 11th Edition
11th Edition
ISBN: 9780077687304
Author: Ferdinand P. Beer, E. Russell Johnston Jr., David Mazurek
Publisher: McGraw-Hill Education
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Chapter 5.3, Problem 5.83P

The base of a dam for a lake is designed to resist up to 120 percent of the horizontal force of the water. After construction, it is found that silt (that is equivalent to a liquid of density ρs = 1.76 × 103 kg/m3) is settling on the lake bottom at the rate of 12 mm/year. Considering a 1-m-wide section of dam, determine the number of years of service until the dam becomes unsafe.

Chapter 5.3, Problem 5.83P, The base of a dam for a lake is designed to resist up to 120 percent of the horizontal force of the

Fig. P5.82 and P5.83

Expert Solution & Answer
Check Mark
To determine

How many years does the dam becomes unsafe?

Answer to Problem 5.83P

The dam becomes unsafe in is service until 282years.

Explanation of Solution

Sketch the free body diagram of the dam as shown in the Figure 1.

Vector Mechanics for Engineers: Statics, 11th Edition, Chapter 5.3, Problem 5.83P

Write the equation for the pressure.

P=FA (I)

Here, the pressure is P, force exerted on the dam is F, and the area of the dam is A

Write the equation for force exerted on the dam without the silt.

Pw=12Apw (II)

Here, the force exerted on the dam is Pw, area of the dam is A, and the pressure of the horizontal force of the water is pw.

Write the equation for gage pressure in a liquid.

pw=ρgh

Here, the density of the water is ρ, aceeleration due to gravity is g, and the height of the dam is h.

Replace lb for A and ρgh for pw in equation (II).

Pw=12(lb)ρgh (III)

Here, the length of the dam is l, breadth of the dam is b, aceeleration due to gravity is g, and the height of the dam is h.

Substitute 6.6m for l, 1m for b, 9.81m/s2 for g, 1000kg/m3 for ρ, and 6.6m for h in equation (III).

Pw=12[(6.6m)(1m)](1000kg/m3)(9.81m/s2)(6.6m)=213661.8N

Write the equation for 120 percentage of resisting force exerted on the dam.

Pr=1.2Pw

Here, the resisting force exerted on the dam is Pr.

Substitute 213661.8N for Pw in above equation to solve for Pr.

Pr=1.2(213661.8N)=256394.16N

Write the equation for force exerted on the dam after a depth that the silt has settled.

Pw=12(ld)(b)ρg(hd) (IV)

Here, force exerted on the dam after silt is settled is Pw and distance of the silt settled in the dam is d.

Substitute 6.6m for l, 1m for b, 9.81m/s2 for g, 1000kg/m3 for ρ, and 6.6m for h in equation (IV).

Pw=12[(6.6md)(1m)][(1000kg/m3)(9.81m/s2)(6.6d)m]=4905(6.6d)2N

Write the equation for pressure force exerted on the dam above the silt at region I

(Refer fig 1).

PI=dbρg(hd) (V)

Here, force exerted on the dam above the silt at region I is PI and width of the dam is b.

Substitute 1m for b, 9.81m/s2 for g, 1000kg/m3 for ρ, and 6.6m for h in equation (V).

PI=[d(1m)][(1000kg/m3)(9.81m/s2)(6.6d)m]=9810(6.6dd2)N

Write the equation for pressure force exerted on the dam surface of the silt at region II

(Refer fig 1).

PII=12(db)ρsg(d) (VI)

Here, force exerted on the surface of the silt at region II is PII and density of the silt is ρs.

Substitute 1m for b, 9.81m/s2 for g, and 1.76×103kg/m3 for ρs in equation (VI).

PII=12[d(1m)][(1.76×103kg/m3)(9.81m/s2)(d)m]=(8632.8d2)N

The net force exerted on the dam on both the regions is,

P=Pw+PI+PII (VII)

Here, the net force exerted on the dam is P.

Conclusion:

Substitute 4905(6.6d)2N for Pw, 9810(6.6dd2)N for PI, and (8632.8d2)N for PII in Equation (VII).

P=4905(6.6d)2N+9810(6.6dd2)N+(8632.8d2)N=[4905(43.5613.2d+d2)+9810(6.6dd2)+(8632.8d2)]N=[213661.864746d+4905d2+64746d9810d2+8632.8d2]N=[3727.8d2+213661.8]N

The net force exerted on the dam is equal to the resisting force exerted on the dam.

P=Pr

Substitute [3727.8d2+213661.8]N for P and 256394.16N for Pr in above Equation.

[3727.8d2+213661.8]N=256394.16N3727.8d2=256394.16N213661.8N3727.8d2=42732.2

Solve the above equation for d

d2=11.4631m2d=3.386m

Write the equation for number of years dam becomes unsafe.

d=NR

Here, the number of years dam becomes unsafe is represented as N and rate of the dam to be unsafe is R.

Substitute 3.386m for d and 12mm/year for R to solve for N.

3.386m=N(12mm/year)(103m1mm)3.386m=(12×103m/year)NN=3.386m12×103m/year=282years

The dam becomes unsafe in is service until 282years.

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Chapter 5 Solutions

Vector Mechanics for Engineers: Statics, 11th Edition

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