Program Description: Purpose of problem is to transform the differential equation x ″ + 3 x ′ + 7 x = t 2 into an equivalent system of first order differential equations.

Question

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Answer 1

Question

Chapter 4.1, Problem 1P

Program Plan Intro

Program Description:Purpose of problem is to transform the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations.

Expert Solution & Answer

Explanation of Solution

Given information:

The differential equation is x″+3x′+7x=t2 .

Explanation:

Thedifferential equation is written as,

x″=t2−3x′−7x .......... (1)

Consider the expression given below.

x=x1

Differentiate the above expression.

x2=x′1

Substitute x for x1 in above equation,

x2=x′

Differentiate the above equation.

x′2=x″1

Substitute x for x1 in above equation,

x′2=x″

Substitute x2 for x′ , x1 for x and x′2 for x″ in equation (1).

x′2=t2−3x2−7x1

Conclusion:

Thus, the transformation of the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations is x′1=x2 and x′2=−7x1−3x2+t2 .

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Answer 2

Question

Chapter 4.1, Problem 1P

Program Plan Intro

Program Description:Purpose of problem is to transform the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations.

Expert Solution & Answer

Explanation of Solution

Given information:

The differential equation is x″+3x′+7x=t2 .

Explanation:

Thedifferential equation is written as,

x″=t2−3x′−7x .......... (1)

Consider the expression given below.

x=x1

Differentiate the above expression.

x2=x′1

Substitute x for x1 in above equation,

x2=x′

Differentiate the above equation.

x′2=x″1

Substitute x for x1 in above equation,

x′2=x″

Substitute x2 for x′ , x1 for x and x′2 for x″ in equation (1).

x′2=t2−3x2−7x1

Conclusion:

Thus, the transformation of the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations is x′1=x2 and x′2=−7x1−3x2+t2 .

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Answer 3

Question

Chapter 4.1, Problem 1P

Program Plan Intro

Program Description:Purpose of problem is to transform the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations.

Expert Solution & Answer

Explanation of Solution

Given information:

The differential equation is x″+3x′+7x=t2 .

Explanation:

Thedifferential equation is written as,

x″=t2−3x′−7x .......... (1)

Consider the expression given below.

x=x1

Differentiate the above expression.

x2=x′1

Substitute x for x1 in above equation,

x2=x′

Differentiate the above equation.

x′2=x″1

Substitute x for x1 in above equation,

x′2=x″

Substitute x2 for x′ , x1 for x and x′2 for x″ in equation (1).

x′2=t2−3x2−7x1

Conclusion:

Thus, the transformation of the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations is x′1=x2 and x′2=−7x1−3x2+t2 .

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Answer 4

Question

Chapter 4.1, Problem 1P

Program Plan Intro

Program Description:Purpose of problem is to transform the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations.

Expert Solution & Answer

Explanation of Solution

Given information:

The differential equation is x″+3x′+7x=t2 .

Explanation:

Thedifferential equation is written as,

x″=t2−3x′−7x .......... (1)

Consider the expression given below.

x=x1

Differentiate the above expression.

x2=x′1

Substitute x for x1 in above equation,

x2=x′

Differentiate the above equation.

x′2=x″1

Substitute x for x1 in above equation,

x′2=x″

Substitute x2 for x′ , x1 for x and x′2 for x″ in equation (1).

x′2=t2−3x2−7x1

Conclusion:

Thus, the transformation of the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations is x′1=x2 and x′2=−7x1−3x2+t2 .

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 5

Chapter 4.1, Problem 1P

Program Plan Intro

Program Description:Purpose of problem is to transform the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations.

Expert Solution & Answer

Explanation of Solution

Given information:

The differential equation is x″+3x′+7x=t2 .

Explanation:

Thedifferential equation is written as,

x″=t2−3x′−7x .......... (1)

Consider the expression given below.

x=x1

Differentiate the above expression.

x2=x′1

Substitute x for x1 in above equation,

x2=x′

Differentiate the above equation.

x′2=x″1

Substitute x for x1 in above equation,

x′2=x″

Substitute x2 for x′ , x1 for x and x′2 for x″ in equation (1).

x′2=t2−3x2−7x1

Conclusion:

Thus, the transformation of the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations is x′1=x2 and x′2=−7x1−3x2+t2 .

Answer 6

Chapter 4.1, Problem 1P

Program Plan Intro

Program Description:Purpose of problem is to transform the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations.

Expert Solution & Answer

Explanation of Solution

Given information:

The differential equation is x″+3x′+7x=t2 .

Explanation:

Thedifferential equation is written as,

x″=t2−3x′−7x .......... (1)

Consider the expression given below.

x=x1

Differentiate the above expression.

x2=x′1

Substitute x for x1 in above equation,

x2=x′

Differentiate the above equation.

x′2=x″1

Substitute x for x1 in above equation,

x′2=x″

Substitute x2 for x′ , x1 for x and x′2 for x″ in equation (1).

x′2=t2−3x2−7x1

Conclusion:

Thus, the transformation of the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations is x′1=x2 and x′2=−7x1−3x2+t2 .

Answer 7

Chapter 4.1, Problem 1P

Program Plan Intro

Program Description:Purpose of problem is to transform the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations.

Answer 8

Expert Solution & Answer

Explanation of Solution

Given information:

The differential equation is x″+3x′+7x=t2 .

Explanation:

Thedifferential equation is written as,

x″=t2−3x′−7x .......... (1)

Consider the expression given below.

x=x1

Differentiate the above expression.

x2=x′1

Substitute x for x1 in above equation,

x2=x′

Differentiate the above equation.

x′2=x″1

Substitute x for x1 in above equation,

x′2=x″

Substitute x2 for x′ , x1 for x and x′2 for x″ in equation (1).

x′2=t2−3x2−7x1

Conclusion:

Thus, the transformation of the differential equation x″+3x′+7x=t2 into an equivalent system of first order differential equations is x′1=x2 and x′2=−7x1−3x2+t2 .