EBK NUMERICAL METHODS FOR ENGINEERS
EBK NUMERICAL METHODS FOR ENGINEERS
7th Edition
ISBN: 8220100254147
Author: Chapra
Publisher: MCG
bartleby

Concept explainers

bartleby

Videos

Textbook Question
Book Icon
Chapter 5, Problem 3P

Determine the real root of f ( x ) = 25 + 82 x 90 x 2 + 44 x 3 8 x 4 + 0.7 x 5 :

(a) Graphically.

(b) Using bisection to determine the root to ε s = 10 % . Employ initial guesses of x l = 0.5 and  x u = 1.0 .

(c) Perform the same computation as in (b) but use the false-position method and ε s = 0.2 % .

(a)

Expert Solution
Check Mark
To determine

The real roots of the equation f(x)=25+82x90x2+44x38x4+0.7x5 using the graphical method.

Answer to Problem 3P

Solution:

The approximate real root of the equation is 0.6.

Explanation of Solution

Given Information:

The equation f(x)=25+82x90x2+44x38x4+0.7x5.

Calculation:

The graph of the function can be plotted using MATLAB.

Code:

% (a)

clc;

x=linspace(-1,1);

y1=0.7*x.^58*x.^4+44*x.^390*x.^2+82*x25;

y2=0;

plot(x,y1);

hold on

line([-1,1],[y2,y2])

Output:

This gives the following plot:

EBK NUMERICAL METHODS FOR ENGINEERS, Chapter 5, Problem 3P

The roots of an equation can be represented graphically by the x-coordinate of the point where the graph cuts the x-axis. From the plot, the only zeros of the equation can be approximated as 0.6.

(b)

To calculate: The root of the equation f(x)=25+82x90x2+44x38x4+0.7x5 using the bisection method by assuming xl and xu to be 0.5 and 1 respectively with the stopping criteria being the iteration where εs falls below 10%.

Solution:

The root of the equation can be approximated as 0.59375.

Given Information:

The equation f(x)=25+82x90x2+44x38x4+0.7x5.

Formula Used:

A root of an equation can be obtained using the bisection method as follows:

1. Choose 2 values x, say a andb such that f(a)f(b)<0.

2. Now, estimate the root by x1=a+b2.

3. If, f(a)f(x1)<0, the root would lie between a and x1. Now assume the next root to be x2=a+x12. If, f(a)f(x1)>0, the root would lie between b and x1. Now assume the next root to be x2=b+x12 and if f(a)f(x1)=0, the root is x1.

Calculation:

For the provided function:

f(0.5)=25+82(0.5)90(0.5)2+44(0.5)38(0.5)4+0.7(0.5)5=1.47812f(1)=25+82(1)90(1)2+44(1)38(1)4+0.7(1)5=3.7

Hence,

f(0.5)f(1)<0

Now take the first root to be,

x1=0.5+12=0.75

Now,

f(0.75)=25+82(0.75)90(0.75)2+44(0.75)38(0.75)4+0.7(0.75)5=2.07236

Thus, f(0.5)f(0.75)<0. This implies that the root would be between 0.5 and 0.75.

Now, the second root would be:

x2=0.5+0.752=0.625

The approximate error can be computed as:

εa=(|0.6250.750.625|×100)%=20%

The approximate relative percentage error is 200%.

Now,

f(0.625)=25+82(0.625)90(0.625)2+44(0.625)38(0.625)4+0.7(0.625)5=0.68199

Thus, f(0.5)f(0.625)<0. This implies that the root would be between 0.5 and 0.625.

Now, the third root would be:

x3=0.5+0.6252=0.5625

The approximate error can be computed as:

εa=(|0.56250.6250.5625|×100)%=11.1%

The approximate error is 11.1%.

Now,

f(0.5625)=25+82(0.5625)90(0.5625)2+44(0.5625)38(0.5625)4+0.7(0.5625)5=0.28199

Thus, f(0.5625)f(0.625)<0. This implies that the root would be between 0.375 and 0.625.

Now, the fourth root would be:

x4=0.5625+0.6252=0.59375

The approximate error can be computed as:

εa=(|0.593750.56250.59375|×100)%=5.26%

The approximate error is 5.26%.

As εa is less than 10%, the process is stopped and root can be approximated as 0.59375.

(c)

To calculate: The root of the equation f(x)=25+82x90x2+44x38x4+0.7x5 using the false-position method by assuming xl and xu to be 0.5 and 1 respectively with the stopping criteria being the iteration where εs falls below 0.2%.

Solution:

The root of the equation can be approximated as 0.57956.

Given Information:

The equation f(x)=25+82x90x2+44x38x4+0.7x5.

Formula Used:

A root of an equation can be obtained using the false-position method as follows:

1. Choose 2 values x, say a andb such that f(a)f(b)<0.

2. Now, estimate the root by x1=bf(b)(ab)f(a)f(b).

3. If, f(a)f(x1)<0, the root would lie between a and x1. Now assume the next root to be x2=x1f(x1)(ax1)f(a)f(x1). If, f(a)f(x1)>0, the root would lie between x1 and b Now assume the next root to be x2=bf(b)(x1b)f(xi)f(b) and if f(a)f(x1)=0, the root is x1.

Calculation:

For the provided function:

f(0.5)=25+82(0.5)90(0.5)2+44(0.5)38(0.5)4+0.7(0.5)5=1.47812f(1)=25+82(1)90(1)2+44(1)38(1)4+0.7(1)5=3.7

Hence,

f(0.5)f(1)<0

Now take the first root to be,

x1=0.5(1.47812)(0.51)1.478123.7=0.64273

Now,

f(0.64273)=25+82(0.64273)90(0.64273)2+44(0.64273)38(0.64273)4+0.7(0.64273)5=0.91879

Thus, f(0.5)f(0.6473)<0. This implies that the root would be between 0.5 and 0.64273.

Now, the second root would be:

x2=0.5(1.47812)(0.50.64273)1.478120.91879=0.58802

The approximate error can be computed as:

εa=(|0.588020.642730.58802|×100)%=9.4%

The approximate relative percentage error is 200%.

Now,

f(0.58802)=25+82(0.58802)90(0.58802)2+44(0.58802)38(0.58802)4+0.7(0.58802)5=0.13729

Thus, f(0.5)f(0.58802)<0. This implies that the root would be between 0.5 and 0.58802.

Now, the third root would be:

x3=0.5(1.47812)(0.50.58802)1.478120.13729=0.58054

The approximate error can be computed as:

εa=(|0.580540.588020.58054|×100)%=1.29%

The approximate error is 1.29%.

Now,

f(0.58054)=25+82(0.58054)90(0.58054)2+44(0.58054)38(0.58054)4+0.7(0.58054)5=0.01822

Thus, f(0.5)f(0.58054)<0. This implies that the root would be between 0.5 and 0.58054.

Now, the fourth root would be:

x4=0.5(1.47812)(0.50.58054)1.478120.01822=0.57956

The approximate error can be computed as:

εa=(|0.576560.580540.57956|×100)%=0.17%

The approximate error is 0.17%.

As εa is less than 0.2%, the process is stopped and root can be approximated as 0.57956.

(b)

Expert Solution
Check Mark
To determine

To calculate: The root of the equation f(x)=25+82x90x2+44x38x4+0.7x5 using the bisection method by assuming xl and xu to be 0.5 and 1 respectively with the stopping criteria being the iteration where εs falls below 10%.

Answer to Problem 3P

Solution:

The root of the equation can be approximated as 0.59375.

Explanation of Solution

Given Information:

The equation f(x)=25+82x90x2+44x38x4+0.7x5.

Formula Used:

A root of an equation can be obtained using the bisection method as follows:

1. Choose 2 values x, say a andb such that f(a)f(b)<0.

2. Now, estimate the root by x1=a+b2.

3. If, f(a)f(x1)<0, the root would lie between a and x1. Now assume the next root to be x2=a+x12. If, f(a)f(x1)>0, the root would lie between b and x1. Now assume the next root to be x2=b+x12 and if f(a)f(x1)=0, the root is x1.

Calculation:

For the provided function:

f(0.5)=25+82(0.5)90(0.5)2+44(0.5)38(0.5)4+0.7(0.5)5=1.47812f(1)=25+82(1)90(1)2+44(1)38(1)4+0.7(1)5=3.7

Hence,

f(0.5)f(1)<0

Now take the first root to be,

x1=0.5+12=0.75

Now,

f(0.75)=25+82(0.75)90(0.75)2+44(0.75)38(0.75)4+0.7(0.75)5=2.07236

Thus, f(0.5)f(0.75)<0. This implies that the root would be between 0.5 and 0.75.

Now, the second root would be:

x2=0.5+0.752=0.625

The approximate error can be computed as:

εa=(|0.6250.750.625|×100)%=20%

The approximate relative percentage error is 200%.

Now,

f(0.625)=25+82(0.625)90(0.625)2+44(0.625)38(0.625)4+0.7(0.625)5=0.68199

Thus, f(0.5)f(0.625)<0. This implies that the root would be between 0.5 and 0.625.

Now, the third root would be:

x3=0.5+0.6252=0.5625

The approximate error can be computed as:

εa=(|0.56250.6250.5625|×100)%=11.1%

The approximate error is 11.1%.

Now,

f(0.5625)=25+82(0.5625)90(0.5625)2+44(0.5625)38(0.5625)4+0.7(0.5625)5=0.28199

Thus, f(0.5625)f(0.625)<0. This implies that the root would be between 0.375 and 0.625.

Now, the fourth root would be:

x4=0.5625+0.6252=0.59375

The approximate error can be computed as:

εa=(|0.593750.56250.59375|×100)%=5.26%

The approximate error is 5.26%.

As εa is less than 10%, the process is stopped and root can be approximated as 0.59375.

(c)

To calculate: The root of the equation f(x)=25+82x90x2+44x38x4+0.7x5 using the false-position method by assuming xl and xu to be 0.5 and 1 respectively with the stopping criteria being the iteration where εs falls below 0.2%.

Solution:

The root of the equation can be approximated as 0.57956.

Given Information:

The equation f(x)=25+82x90x2+44x38x4+0.7x5.

Formula Used:

A root of an equation can be obtained using the false-position method as follows:

1. Choose 2 values x, say a andb such that f(a)f(b)<0.

2. Now, estimate the root by x1=bf(b)(ab)f(a)f(b).

3. If, f(a)f(x1)<0, the root would lie between a and x1. Now assume the next root to be x2=x1f(x1)(ax1)f(a)f(x1). If, f(a)f(x1)>0, the root would lie between x1 and b Now assume the next root to be x2=bf(b)(x1b)f(xi)f(b) and if f(a)f(x1)=0, the root is x1.

Calculation:

For the provided function:

f(0.5)=25+82(0.5)90(0.5)2+44(0.5)38(0.5)4+0.7(0.5)5=1.47812f(1)=25+82(1)90(1)2+44(1)38(1)4+0.7(1)5=3.7

Hence,

f(0.5)f(1)<0

Now take the first root to be,

x1=0.5(1.47812)(0.51)1.478123.7=0.64273

Now,

f(0.64273)=25+82(0.64273)90(0.64273)2+44(0.64273)38(0.64273)4+0.7(0.64273)5=0.91879

Thus, f(0.5)f(0.6473)<0. This implies that the root would be between 0.5 and 0.64273.

Now, the second root would be:

x2=0.5(1.47812)(0.50.64273)1.478120.91879=0.58802

The approximate error can be computed as:

εa=(|0.588020.642730.58802|×100)%=9.4%

The approximate relative percentage error is 200%.

Now,

f(0.58802)=25+82(0.58802)90(0.58802)2+44(0.58802)38(0.58802)4+0.7(0.58802)5=0.13729

Thus, f(0.5)f(0.58802)<0. This implies that the root would be between 0.5 and 0.58802.

Now, the third root would be:

x3=0.5(1.47812)(0.50.58802)1.478120.13729=0.58054

The approximate error can be computed as:

εa=(|0.580540.588020.58054|×100)%=1.29%

The approximate error is 1.29%.

Now,

f(0.58054)=25+82(0.58054)90(0.58054)2+44(0.58054)38(0.58054)4+0.7(0.58054)5=0.01822

Thus, f(0.5)f(0.58054)<0. This implies that the root would be between 0.5 and 0.58054.

Now, the fourth root would be:

x4=0.5(1.47812)(0.50.58054)1.478120.01822=0.57956

The approximate error can be computed as:

εa=(|0.576560.580540.57956|×100)%=0.17%

The approximate error is 0.17%.

As εa is less than 0.2%, the process is stopped and root can be approximated as 0.57956.

(c)

Expert Solution
Check Mark
To determine

To calculate: The root of the equation f(x)=25+82x90x2+44x38x4+0.7x5 using the false-position method by assuming xl and xu to be 0.5 and 1 respectively with the stopping criteria being the iteration where εs falls below 0.2%.

Answer to Problem 3P

Solution:

The root of the equation can be approximated as 0.57956.

Explanation of Solution

Given Information:

The equation f(x)=25+82x90x2+44x38x4+0.7x5.

Formula Used:

A root of an equation can be obtained using the false-position method as follows:

1. Choose 2 values x, say a andb such that f(a)f(b)<0.

2. Now, estimate the root by x1=bf(b)(ab)f(a)f(b).

3. If, f(a)f(x1)<0, the root would lie between a and x1. Now assume the next root to be x2=x1f(x1)(ax1)f(a)f(x1). If, f(a)f(x1)>0, the root would lie between x1 and b Now assume the next root to be x2=bf(b)(x1b)f(xi)f(b) and if f(a)f(x1)=0, the root is x1.

Calculation:

For the provided function:

f(0.5)=25+82(0.5)90(0.5)2+44(0.5)38(0.5)4+0.7(0.5)5=1.47812f(1)=25+82(1)90(1)2+44(1)38(1)4+0.7(1)5=3.7

Hence,

f(0.5)f(1)<0

Now take the first root to be,

x1=0.5(1.47812)(0.51)1.478123.7=0.64273

Now,

f(0.64273)=25+82(0.64273)90(0.64273)2+44(0.64273)38(0.64273)4+0.7(0.64273)5=0.91879

Thus, f(0.5)f(0.6473)<0. This implies that the root would be between 0.5 and 0.64273.

Now, the second root would be:

x2=0.5(1.47812)(0.50.64273)1.478120.91879=0.58802

The approximate error can be computed as:

εa=(|0.588020.642730.58802|×100)%=9.4%

The approximate relative percentage error is 200%.

Now,

f(0.58802)=25+82(0.58802)90(0.58802)2+44(0.58802)38(0.58802)4+0.7(0.58802)5=0.13729

Thus, f(0.5)f(0.58802)<0. This implies that the root would be between 0.5 and 0.58802.

Now, the third root would be:

x3=0.5(1.47812)(0.50.58802)1.478120.13729=0.58054

The approximate error can be computed as:

εa=(|0.580540.588020.58054|×100)%=1.29%

The approximate error is 1.29%.

Now,

f(0.58054)=25+82(0.58054)90(0.58054)2+44(0.58054)38(0.58054)4+0.7(0.58054)5=0.01822

Thus, f(0.5)f(0.58054)<0. This implies that the root would be between 0.5 and 0.58054.

Now, the fourth root would be:

x4=0.5(1.47812)(0.50.58054)1.478120.01822=0.57956

The approximate error can be computed as:

εa=(|0.576560.580540.57956|×100)%=0.17%

The approximate error is 0.17%.

As εa is less than 0.2%, the process is stopped and root can be approximated as 0.57956.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!
Students have asked these similar questions
M- 03. Determine the real root of f(x) = -26 + 85x – 91x? + 44x3 – 8x* + x5: a. Graphically. b. Using bisection to determine the root to es = 10%. Employ initial guesses of x = 0.5 and x, = 1.0. c. Perform the same computation as in (b) but use the false position method and e, = 0.2%. (For this item, the use of MS Excel is permitted provided that the iteration procedure is clear and easy to follow.)
Determine the real root of f(x) = -26 +85x − 91x² + 44x³ − 8x¹ + x5. - a. Graphically. b. Using bisection to determine the root to & = 10% employing initial guesses of x₁ = 0.5 and xu = 1.0. c. Perform the same computation as in (b) but use the false-position method and Es = 0.2%
If y = 5(1 - e-2x), compute y and show that y = 10 - 2y.

Chapter 5 Solutions

EBK NUMERICAL METHODS FOR ENGINEERS

Knowledge Booster
Background pattern image
Mechanical Engineering
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.
Similar questions
SEE MORE QUESTIONS
Recommended textbooks for you
Text book image
College Algebra
Algebra
ISBN:9781337282291
Author:Ron Larson
Publisher:Cengage Learning
Text book image
Intermediate Algebra
Algebra
ISBN:9781285195728
Author:Jerome E. Kaufmann, Karen L. Schwitters
Publisher:Cengage Learning
Text book image
Big Ideas Math A Bridge To Success Algebra 1: Stu...
Algebra
ISBN:9781680331141
Author:HOUGHTON MIFFLIN HARCOURT
Publisher:Houghton Mifflin Harcourt
Text book image
College Algebra (MindTap Course List)
Algebra
ISBN:9781305652231
Author:R. David Gustafson, Jeff Hughes
Publisher:Cengage Learning
Text book image
College Algebra
Algebra
ISBN:9781938168383
Author:Jay Abramson
Publisher:OpenStax
Text book image
Algebra & Trigonometry with Analytic Geometry
Algebra
ISBN:9781133382119
Author:Swokowski
Publisher:Cengage
Limits and Continuity; Author: The Organic Chemistry Tutor;https://www.youtube.com/watch?v=9brk313DjV8;License: Standard YouTube License, CC-BY