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Math Advanced Math ADVANCED ENGINEERING MATHEMATICS

That the solution of the given initial value problem exists in an x -interval larger than that guaranteed by the present theorems for y ′ = 2 y 2 , y ( 1 ) = 1 by finding the best possible α . The particular solution and α o p t are y = − 1 3 − 2 x _ and 1 8 _ respectively. From the initial condition y ( 1 ) = 1 , note that the region have two sides 2 a and 2 b with center ( 1 , 1 ) . Now the function f ( x , y ) is written as: f ( x , y ) = 2 y 2 ≤ 2 ( b + 1 ) 2 = K Substitute, K = 2 ( b + 1 ) 2 in the equation α = b K . α = b K = b 2 ( b + 1 ) 2 Differentiate the above expression with respect to b . d α d b = d d b [ b 2 ( b + 1 ) 2 ] = 2 ( b + 1 ) 2 − 4 × b ( b + 1 ) 4 ( b + 1 ) 4 = 2 b 2 + 4 b + 2 − 4 b 2 − 4 b 4 ( b + 1 ) 4 On further simplification, the following is obtained. d α d b = 2 − 2 b 2 4 ( b + 1 ) 4 = 1 − b 2 2 ( b + 1 ) 4 For the maximum value b , Substitute d α d b = 0 . 1 − b 2 2 ( b + 1 ) 4 = 0 1 − b 2 = 0 ( 1 − b ) ( 1 + b ) = 0 b = ± 1 Substitute, b = 1 in the equation α = b 2 ( b + 1 ) 2 . α = b 2 ( b + 1 ) 2 = 1 2 ( 1 + 1 ) 2 = 1 2 ( 2 ) 2 = 1 8 The general solution of the differential equation is calculated as: y ′ = 2 y 2 d y d x = 2 y 2 d y y 2 = 2 d x On further simplification, the following is obtained. − 1 y = 2 x + c y = − 1 c − 2 x Now apply the initial condition on the above equation. y ( 1 ) = − 1 c − 2 ( 1 ) 1 = − 1 c − 2 c = 3 Therefore, the particular solution and α o p t are y = − 1 3 − 2 x _ and 1 8 _ respectively.

That the solution of the given initial value problem exists in an x -interval larger than that guaranteed by the present theorems for y ′ = 2 y 2 , y ( 1 ) = 1 by finding the best possible α . The particular solution and α o p t are y = − 1 3 − 2 x _ and 1 8 _ respectively. From the initial condition y ( 1 ) = 1 , note that the region have two sides 2 a and 2 b with center ( 1 , 1 ) . Now the function f ( x , y ) is written as: f ( x , y ) = 2 y 2 ≤ 2 ( b + 1 ) 2 = K Substitute, K = 2 ( b + 1 ) 2 in the equation α = b K . α = b K = b 2 ( b + 1 ) 2 Differentiate the above expression with respect to b . d α d b = d d b [ b 2 ( b + 1 ) 2 ] = 2 ( b + 1 ) 2 − 4 × b ( b + 1 ) 4 ( b + 1 ) 4 = 2 b 2 + 4 b + 2 − 4 b 2 − 4 b 4 ( b + 1 ) 4 On further simplification, the following is obtained. d α d b = 2 − 2 b 2 4 ( b + 1 ) 4 = 1 − b 2 2 ( b + 1 ) 4 For the maximum value b , Substitute d α d b = 0 . 1 − b 2 2 ( b + 1 ) 4 = 0 1 − b 2 = 0 ( 1 − b ) ( 1 + b ) = 0 b = ± 1 Substitute, b = 1 in the equation α = b 2 ( b + 1 ) 2 . α = b 2 ( b + 1 ) 2 = 1 2 ( 1 + 1 ) 2 = 1 2 ( 2 ) 2 = 1 8 The general solution of the differential equation is calculated as: y ′ = 2 y 2 d y d x = 2 y 2 d y y 2 = 2 d x On further simplification, the following is obtained. − 1 y = 2 x + c y = − 1 c − 2 x Now apply the initial condition on the above equation. y ( 1 ) = − 1 c − 2 ( 1 ) 1 = − 1 c − 2 c = 3 Therefore, the particular solution and α o p t are y = − 1 3 − 2 x _ and 1 8 _ respectively.

ADVANCED ENGINEERING MATHEMATICS

ADVANCED ENGINEERING MATHEMATICS

10th Edition

ISBN: 2819770198774

Author: Kreyszig

Publisher: WILEY CONS

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(b) Let I[y] be a functional of y(x) defined by [[y] = √(x²y' + 2xyy' + 2xy + y²) dr, subject to boundary conditions y(0) = 0, y(1) = 1. State the Euler-Lagrange equation for finding extreme values of I [y] for this prob- lem. Explain why the function y(x) = x is an extremal, and for this function, show that I = 2. Without doing further calculations, give the values of I for the functions y(x) = x² and y(x) = x³.

Please use mathematical induction to prove this

L sin 2x (1+ cos 3x) dx 59

Chapter 1 Solutions

ADVANCED ENGINEERING MATHEMATICS

Ch. 1.1 - Prob. 1P Ch. 1.1 - Prob. 2P Ch. 1.1 - Prob. 3P Ch. 1.1 - Prob. 4P Ch. 1.1 - Prob. 5P Ch. 1.1 - Prob. 6P Ch. 1.1 - Prob. 7P Ch. 1.1 - Prob. 8P Ch. 1.1 - Prob. 9P Ch. 1.1 - Prob. 10P

Ch. 1.1 - Prob. 11P Ch. 1.1 - Prob. 12P Ch. 1.1 - Prob. 13P Ch. 1.1 - Prob. 14P Ch. 1.1 - 9–15 VERIFICATION. INITIAL VALUE PROBLEM...Ch. 1.1 - Prob. 16P Ch. 1.1 - Half-life. The half-life measures exponential...Ch. 1.1 - Half-life. Radium has a half-life of about 3.6...Ch. 1.1 - Prob. 19P Ch. 1.1 - Exponential decay. Subsonic flight. The efficiency...Ch. 1.2 - DIRECTION FIELDS, SOLUTION CURVES Graph a...Ch. 1.2 - 1–8 DIRECTION FIELDS, SOLUTION CURVES Graph a...Ch. 1.2 - DIRECTION FIELDS, SOLUTION CURVES Graph a...Ch. 1.2 - Prob. 4P Ch. 1.2 - DIRECTION FIELDS, SOLUTION CURVES Graph a...Ch. 1.2 - Prob. 6P Ch. 1.2 - DIRECTION FIELDS, SOLUTION CURVES Graph a...Ch. 1.2 - Prob. 8P Ch. 1.2 - Prob. 9P Ch. 1.2 - Prob. 10P Ch. 1.2 - Autonomous ODE. This means an ODE not showing x...Ch. 1.2 - Model the motion of a body B on a straight line...Ch. 1.2 - Prob. 13P Ch. 1.2 - Prob. 14P Ch. 1.2 - Prob. 15P Ch. 1.2 - Prob. 16P Ch. 1.2 - EULER’S METHOD This is the simplest method to...Ch. 1.2 - EULER’S METHOD This is the simplest method to...Ch. 1.2 - EULER’S METHOD This is the simplest method to...Ch. 1.2 - EULER’S METHOD This is the simplest method to...Ch. 1.3 - Prob. 1P Ch. 1.3 - Prob. 2P Ch. 1.3 - GENERAL SOLUTION Find a general solution. Show the...Ch. 1.3 - GENERAL SOLUTION Find a general solution. Show the...Ch. 1.3 - GENERAL SOLUTION Find a general solution. Show the...Ch. 1.3 - GENERAL SOLUTION Find a general solution. Show the...Ch. 1.3 - GENERAL SOLUTION Find a general solution. Show the...Ch. 1.3 - GENERAL SOLUTION Find a general solution. Show the...Ch. 1.3 - GENERAL SOLUTION Find a general solution. Show the...Ch. 1.3 - GENERAL SOLUTION Find a general solution. Show the...Ch. 1.3 - INITIAL VALUE PROBLEMS (IVPs) Solve the IVP. Show...Ch. 1.3 - INITIAL VALUE PROBLEMS (IVPs) Solve the IVP. Show...Ch. 1.3 - INITIAL VALUE PROBLEMS (IVPs) Solve the IVP. Show...Ch. 1.3 - INITIAL VALUE PROBLEMS (IVPs) Solve the IVP. Show...Ch. 1.3 - INITIAL VALUE PROBLEMS (IVPs) Solve the IVP. Show...Ch. 1.3 - INITIAL VALUE PROBLEMS (IVPs) Solve the IVP. Show...Ch. 1.3 - Prob. 17P Ch. 1.3 - Prob. 18P Ch. 1.3 - INITIAL VALUE PROBLEMS (IVPs) Solve the IVP. Show...Ch. 1.3 - Prob. 20P Ch. 1.3 - Radiocarbon dating. What should be the content...Ch. 1.3 - Prob. 22P Ch. 1.3 - Prob. 23P Ch. 1.3 - Prob. 24P Ch. 1.3 - Prob. 25P Ch. 1.3 - Prob. 26P Ch. 1.3 - Prob. 27P Ch. 1.3 - Prob. 28P Ch. 1.3 - Prob. 29P Ch. 1.3 - Prob. 30P Ch. 1.3 - Prob. 31P Ch. 1.3 - Prob. 32P Ch. 1.3 - Prob. 33P Ch. 1.3 - Prob. 36P Ch. 1.4 - Prob. 1P Ch. 1.4 - Prob. 2P Ch. 1.4 - Prob. 3P Ch. 1.4 - Prob. 4P Ch. 1.4 - Prob. 5P Ch. 1.4 - Prob. 6P Ch. 1.4 - Prob. 7P Ch. 1.4 - Prob. 8P Ch. 1.4 - Prob. 9P Ch. 1.4 - ODEs. INTEGRATING FACTORS Test for exactness. If...Ch. 1.4 - ODEs. INTEGRATING FACTORS Test for exactness. If...Ch. 1.4 - ODEs. INTEGRATING FACTORS Test for exactness. If...Ch. 1.4 - ODEs. INTEGRATING FACTORS Test for exactness. If...Ch. 1.4 - ODEs. INTEGRATING FACTORS Test for exactness. If...Ch. 1.4 - Exactness. Under what conditions for the constants...Ch. 1.4 - Prob. 17P Ch. 1.4 - Prob. 18P Ch. 1.5 - CAUTION! Show that e−ln x = 1/x (not −x) and...Ch. 1.5 - Prob. 2P Ch. 1.5 - GENERAL SOLUTION. INITIAL VALUE PROBLEMS Find the...Ch. 1.5 - GENERAL SOLUTION. INITIAL VALUE PROBLEMS Find the...Ch. 1.5 - GENERAL SOLUTION. INITIAL VALUE PROBLEMS Find the...Ch. 1.5 - GENERAL SOLUTION. INITIAL VALUE PROBLEMS Find the...Ch. 1.5 - GENERAL SOLUTION. INITIAL VALUE PROBLEMS 7. xy′ =...Ch. 1.5 - GENERAL SOLUTION. INITIAL VALUE PROBLEMS Find the...Ch. 1.5 - GENERAL SOLUTION. INITIAL VALUE PROBLEMS 9. Ch. 1.5 - GENERAL SOLUTION. INITIAL VALUE PROBLEMS Find the...Ch. 1.5 - GENERAL SOLUTION. INITIAL VALUE PROBLEMS Find the...Ch. 1.5 - GENERAL SOLUTION. INITIAL VALUE PROBLEMS Find the...Ch. 1.5 - GENERAL SOLUTION. INITIAL VALUE PROBLEMS Find the...Ch. 1.5 - Prob. 14P Ch. 1.5 - Prob. 15P Ch. 1.5 - Prob. 16P Ch. 1.5 - Prob. 17P Ch. 1.5 - Prob. 18P Ch. 1.5 - Prob. 19P Ch. 1.5 - GENERAL PROPERTIES OF LINEAR ODEs These properties...Ch. 1.5 - Prob. 21P Ch. 1.5 - NONLINEAR ODEs Using a method of this section or...Ch. 1.5 - NONLINEAR ODEs Using a method of this section or...Ch. 1.5 - NONLINEAR ODEs Using a method of this section or...Ch. 1.5 - NONLINEAR ODEs Using a method of this section or...Ch. 1.5 - NONLINEAR ODEs Using a method of this section or...Ch. 1.5 - NONLINEAR ODEs Using a method of this section or...Ch. 1.5 - NONLINEAR ODEs Using a method of this section or...Ch. 1.5 - Prob. 29P Ch. 1.5 - MODELING. FURTHER APPLICATIONS 31. Newton’s law of...Ch. 1.5 - Prob. 32P Ch. 1.5 - MODELING. FURTHER APPLICATIONS 33. Drug injection....Ch. 1.5 - MODELING. FURTHER APPLICATIONS 34. Epidemics. A...Ch. 1.5 - MODELING. FURTHER APPLICATIONS 35. Lake Erie. Lake...Ch. 1.5 - MODELING. FURTHER APPLICATIONS 36. Harvesting...Ch. 1.5 - Prob. 37P Ch. 1.5 - Prob. 38P Ch. 1.5 - Prob. 39P Ch. 1.5 - Prob. 40P Ch. 1.6 - Represent the given family of curves in the form...Ch. 1.6 - Prob. 2P Ch. 1.6 - Represent the given family of curves in the form...Ch. 1.6 - ORTHOGONAL TRAJECTORIES (OTs) Sketch or graph some...Ch. 1.6 - ORTHOGONAL TRAJECTORIES (OTs) Sketch or graph some...Ch. 1.6 - ORTHOGONAL TRAJECTORIES (OTs) Sketch or graph some...Ch. 1.6 - ORTHOGONAL TRAJECTORIES (OTs) Sketch or graph some...Ch. 1.6 - ORTHOGONAL TRAJECTORIES (OTs) Sketch or graph some...Ch. 1.6 - ORTHOGONAL TRAJECTORIES (OTs) Sketch or graph some...Ch. 1.6 - ORTHOGONAL TRAJECTORIES (OTs) Sketch or graph some...Ch. 1.6 - APPLICATIONS, EXTENSIONS 11. Electric field. Let...Ch. 1.6 - Electric field. The lines of electric force of two...Ch. 1.6 - Prob. 13P Ch. 1.6 - Conic sections. Find the conditions under which...Ch. 1.6 - Prob. 15P Ch. 1.6 - Prob. 16P Ch. 1.7 - Prob. 1P Ch. 1.7 - Existence? Does the initial value problem (x −...Ch. 1.7 - Vertical strip. If the assumptions of Theorems 1...Ch. 1.7 - Change of initial condition. What happens in Prob....Ch. 1.7 - Prob. 5P Ch. 1.7 - Maximum α. What is the largest possible α in...Ch. 1.7 - Prob. 8P Ch. 1.7 - Common points. Can two solution curves of the same...Ch. 1.7 - Three possible cases. Find all initial conditions...Ch. 1 - Prob. 1RQ Ch. 1 - Prob. 2RQ Ch. 1 - Does every first-order ODE have a solution? A...Ch. 1 - What is a direction field? A numeric method for...Ch. 1 - What is an exact ODE? Is f(x) dx + g(y) dy = 0...Ch. 1 - Prob. 6RQ Ch. 1 - What other solution methods did we consider in...Ch. 1 - Can an ODE sometimes be solved by several methods?...Ch. 1 - Prob. 9RQ Ch. 1 - Prob. 10RQ Ch. 1 - Prob. 11RQ Ch. 1 - Prob. 12RQ Ch. 1 - Prob. 13RQ Ch. 1 - Prob. 14RQ Ch. 1 - Prob. 15RQ Ch. 1 - DIRECTION FIELD: NUMERIC SOLUTION Graph a...Ch. 1 - Prob. 17RQ Ch. 1 - Prob. 18RQ Ch. 1 - Prob. 19RQ Ch. 1 - Prob. 20RQ Ch. 1 - Prob. 21RQ Ch. 1 - Prob. 22RQ Ch. 1 - Prob. 23RQ Ch. 1 - Prob. 24RQ Ch. 1 - Prob. 25RQ Ch. 1 - Prob. 26RQ Ch. 1 - Prob. 27RQ Ch. 1 - Prob. 28RQ Ch. 1 - Half-life. If in a reactor, uranium loses 10% of...Ch. 1 - Prob. 30RQ

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