What is the formula for integration by parts and its origin and suggest the reasons behind its usage.

Question

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Answer 1

Question

Chapter 8, Problem 1GYR

To determine

What is the formula for integration by parts and its origin and suggest the reasons behind its usage.

Expert Solution & Answer

Explanation of Solution

Write the formula for integration by parts as below.

∫u(x)v′(x)dx=u(x)v(x)−∫v(x)u′(x)dx

The integration by parts formula has been derived from the product rule in the integral form as below.

ddx[u(x)v(x)]=u′(x)v(x)+u(x)v′(x)

Integrate the equation as below.

∫ddx[u(x)v(x)]dx=∫u′(x)v(x)dx+∫u(x)v′(x)dx

Rearrange the terms as below.

∫u(x)v′(x)dx=∫ddx[u(x)v(x)]dx−∫v(x)u′(x)dx

Simplify it as below.

∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx

Thus, the formula for integration by parts comes from the product rule in integral form.

The formula is helpful to solve the integral present in the form ∫u(x)v′(x)dx and is also difficult to solve directly. Hence, the solution will be obtained by solving the integral term ∫v(x)u′(x)dx, which is much easier to be computed.

This formula is useful when the function u can be differentiated repeatedly and term v′ can be integrated repeatedly without any difficulty.

Therefore, the formula for integration by parts is ∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx. It comes from writing the product rule in integral form. It is useful in conditions where the integral form ∫u(x)v′(x)dx is difficult to solve compared to solving the term ∫v(x)u′(x)dx.

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Answer 2

Question

Chapter 8, Problem 1GYR

To determine

What is the formula for integration by parts and its origin and suggest the reasons behind its usage.

Expert Solution & Answer

Explanation of Solution

Write the formula for integration by parts as below.

∫u(x)v′(x)dx=u(x)v(x)−∫v(x)u′(x)dx

The integration by parts formula has been derived from the product rule in the integral form as below.

ddx[u(x)v(x)]=u′(x)v(x)+u(x)v′(x)

Integrate the equation as below.

∫ddx[u(x)v(x)]dx=∫u′(x)v(x)dx+∫u(x)v′(x)dx

Rearrange the terms as below.

∫u(x)v′(x)dx=∫ddx[u(x)v(x)]dx−∫v(x)u′(x)dx

Simplify it as below.

∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx

Thus, the formula for integration by parts comes from the product rule in integral form.

The formula is helpful to solve the integral present in the form ∫u(x)v′(x)dx and is also difficult to solve directly. Hence, the solution will be obtained by solving the integral term ∫v(x)u′(x)dx, which is much easier to be computed.

This formula is useful when the function u can be differentiated repeatedly and term v′ can be integrated repeatedly without any difficulty.

Therefore, the formula for integration by parts is ∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx. It comes from writing the product rule in integral form. It is useful in conditions where the integral form ∫u(x)v′(x)dx is difficult to solve compared to solving the term ∫v(x)u′(x)dx.

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

Answer 3

Question

Chapter 8, Problem 1GYR

To determine

What is the formula for integration by parts and its origin and suggest the reasons behind its usage.

Expert Solution & Answer

Explanation of Solution

Write the formula for integration by parts as below.

∫u(x)v′(x)dx=u(x)v(x)−∫v(x)u′(x)dx

The integration by parts formula has been derived from the product rule in the integral form as below.

ddx[u(x)v(x)]=u′(x)v(x)+u(x)v′(x)

Integrate the equation as below.

∫ddx[u(x)v(x)]dx=∫u′(x)v(x)dx+∫u(x)v′(x)dx

Rearrange the terms as below.

∫u(x)v′(x)dx=∫ddx[u(x)v(x)]dx−∫v(x)u′(x)dx

Simplify it as below.

∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx

Thus, the formula for integration by parts comes from the product rule in integral form.

The formula is helpful to solve the integral present in the form ∫u(x)v′(x)dx and is also difficult to solve directly. Hence, the solution will be obtained by solving the integral term ∫v(x)u′(x)dx, which is much easier to be computed.

This formula is useful when the function u can be differentiated repeatedly and term v′ can be integrated repeatedly without any difficulty.

Therefore, the formula for integration by parts is ∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx. It comes from writing the product rule in integral form. It is useful in conditions where the integral form ∫u(x)v′(x)dx is difficult to solve compared to solving the term ∫v(x)u′(x)dx.

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

Answer 4

Question

Chapter 8, Problem 1GYR

To determine

What is the formula for integration by parts and its origin and suggest the reasons behind its usage.

Expert Solution & Answer

Explanation of Solution

Write the formula for integration by parts as below.

∫u(x)v′(x)dx=u(x)v(x)−∫v(x)u′(x)dx

The integration by parts formula has been derived from the product rule in the integral form as below.

ddx[u(x)v(x)]=u′(x)v(x)+u(x)v′(x)

Integrate the equation as below.

∫ddx[u(x)v(x)]dx=∫u′(x)v(x)dx+∫u(x)v′(x)dx

Rearrange the terms as below.

∫u(x)v′(x)dx=∫ddx[u(x)v(x)]dx−∫v(x)u′(x)dx

Simplify it as below.

∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx

Thus, the formula for integration by parts comes from the product rule in integral form.

The formula is helpful to solve the integral present in the form ∫u(x)v′(x)dx and is also difficult to solve directly. Hence, the solution will be obtained by solving the integral term ∫v(x)u′(x)dx, which is much easier to be computed.

This formula is useful when the function u can be differentiated repeatedly and term v′ can be integrated repeatedly without any difficulty.

Therefore, the formula for integration by parts is ∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx. It comes from writing the product rule in integral form. It is useful in conditions where the integral form ∫u(x)v′(x)dx is difficult to solve compared to solving the term ∫v(x)u′(x)dx.

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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 8, Problem 1GYR

To determine

What is the formula for integration by parts and its origin and suggest the reasons behind its usage.

Expert Solution & Answer

Explanation of Solution

Write the formula for integration by parts as below.

∫u(x)v′(x)dx=u(x)v(x)−∫v(x)u′(x)dx

The integration by parts formula has been derived from the product rule in the integral form as below.

ddx[u(x)v(x)]=u′(x)v(x)+u(x)v′(x)

Integrate the equation as below.

∫ddx[u(x)v(x)]dx=∫u′(x)v(x)dx+∫u(x)v′(x)dx

Rearrange the terms as below.

∫u(x)v′(x)dx=∫ddx[u(x)v(x)]dx−∫v(x)u′(x)dx

Simplify it as below.

∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx

Thus, the formula for integration by parts comes from the product rule in integral form.

The formula is helpful to solve the integral present in the form ∫u(x)v′(x)dx and is also difficult to solve directly. Hence, the solution will be obtained by solving the integral term ∫v(x)u′(x)dx, which is much easier to be computed.

This formula is useful when the function u can be differentiated repeatedly and term v′ can be integrated repeatedly without any difficulty.

Therefore, the formula for integration by parts is ∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx. It comes from writing the product rule in integral form. It is useful in conditions where the integral form ∫u(x)v′(x)dx is difficult to solve compared to solving the term ∫v(x)u′(x)dx.

Answer 6

Chapter 8, Problem 1GYR

To determine

What is the formula for integration by parts and its origin and suggest the reasons behind its usage.

Expert Solution & Answer

Explanation of Solution

Write the formula for integration by parts as below.

∫u(x)v′(x)dx=u(x)v(x)−∫v(x)u′(x)dx

The integration by parts formula has been derived from the product rule in the integral form as below.

ddx[u(x)v(x)]=u′(x)v(x)+u(x)v′(x)

Integrate the equation as below.

∫ddx[u(x)v(x)]dx=∫u′(x)v(x)dx+∫u(x)v′(x)dx

Rearrange the terms as below.

∫u(x)v′(x)dx=∫ddx[u(x)v(x)]dx−∫v(x)u′(x)dx

Simplify it as below.

∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx

Thus, the formula for integration by parts comes from the product rule in integral form.

The formula is helpful to solve the integral present in the form ∫u(x)v′(x)dx and is also difficult to solve directly. Hence, the solution will be obtained by solving the integral term ∫v(x)u′(x)dx, which is much easier to be computed.

This formula is useful when the function u can be differentiated repeatedly and term v′ can be integrated repeatedly without any difficulty.

Therefore, the formula for integration by parts is ∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx. It comes from writing the product rule in integral form. It is useful in conditions where the integral form ∫u(x)v′(x)dx is difficult to solve compared to solving the term ∫v(x)u′(x)dx.

Answer 7

Chapter 8, Problem 1GYR

To determine

What is the formula for integration by parts and its origin and suggest the reasons behind its usage.

Answer 8

Expert Solution & Answer

Explanation of Solution

Write the formula for integration by parts as below.

∫u(x)v′(x)dx=u(x)v(x)−∫v(x)u′(x)dx

The integration by parts formula has been derived from the product rule in the integral form as below.

ddx[u(x)v(x)]=u′(x)v(x)+u(x)v′(x)

Integrate the equation as below.

∫ddx[u(x)v(x)]dx=∫u′(x)v(x)dx+∫u(x)v′(x)dx

Rearrange the terms as below.

∫u(x)v′(x)dx=∫ddx[u(x)v(x)]dx−∫v(x)u′(x)dx

Simplify it as below.

∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx

Thus, the formula for integration by parts comes from the product rule in integral form.

The formula is helpful to solve the integral present in the form ∫u(x)v′(x)dx and is also difficult to solve directly. Hence, the solution will be obtained by solving the integral term ∫v(x)u′(x)dx, which is much easier to be computed.

This formula is useful when the function u can be differentiated repeatedly and term v′ can be integrated repeatedly without any difficulty.

Therefore, the formula for integration by parts is ∫u(x)v′(x)dx=[u(x)v(x)]−∫v(x)u′(x)dx. It comes from writing the product rule in integral form. It is useful in conditions where the integral form ∫u(x)v′(x)dx is difficult to solve compared to solving the term ∫v(x)u′(x)dx.