∫ x e − 3 x d x

Question

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Answer 1

Question

Chapter E, Problem 1E

To determine

To Calculate: ∫xe−3xdx

Expert Solution & Answer

Answer to Problem 1E

∫xe−3xdx=−e−3x(3x+1)9+C where C is constant

Explanation of Solution

Given:

∫xe−3xdx

Formula used:

The Integration by parts formula ∫udv=uv−∫vdu .

∫eaxdx=1aeax+C , where C is constant.

Calculation:

∫xe−3xdx can be considered as ∫x(e−3xdx)=∫udv

Where

u=x and dv=e−3xdx

In this case differentiating u gives:

du=dx

and integrating dv gives

v=e−3x−3

Taking C=0 to obtain simplest antiderivative ∵∫e−3xdx=e−3x−3+C

Then by Integration by parts formula

∫(x)(e−3xdx)=−xe−3x3−∫(−e−3x3)dx ∵∫udv=uv−∫vdu =−xe−3x3−e−3x9+C where C is constant.

After simplification

∫(x)(e−3xdx)=−e−3x(3x+1)9+C where C is constant

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Answer 2

Question

Chapter E, Problem 1E

To determine

To Calculate: ∫xe−3xdx

Expert Solution & Answer

Answer to Problem 1E

∫xe−3xdx=−e−3x(3x+1)9+C where C is constant

Explanation of Solution

Given:

∫xe−3xdx

Formula used:

The Integration by parts formula ∫udv=uv−∫vdu .

∫eaxdx=1aeax+C , where C is constant.

Calculation:

∫xe−3xdx can be considered as ∫x(e−3xdx)=∫udv

Where

u=x and dv=e−3xdx

In this case differentiating u gives:

du=dx

and integrating dv gives

v=e−3x−3

Taking C=0 to obtain simplest antiderivative ∵∫e−3xdx=e−3x−3+C

Then by Integration by parts formula

∫(x)(e−3xdx)=−xe−3x3−∫(−e−3x3)dx ∵∫udv=uv−∫vdu =−xe−3x3−e−3x9+C where C is constant.

After simplification

∫(x)(e−3xdx)=−e−3x(3x+1)9+C where C is constant

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Answer 3

Question

Chapter E, Problem 1E

To determine

To Calculate: ∫xe−3xdx

Expert Solution & Answer

Answer to Problem 1E

∫xe−3xdx=−e−3x(3x+1)9+C where C is constant

Explanation of Solution

Given:

∫xe−3xdx

Formula used:

The Integration by parts formula ∫udv=uv−∫vdu .

∫eaxdx=1aeax+C , where C is constant.

Calculation:

∫xe−3xdx can be considered as ∫x(e−3xdx)=∫udv

Where

u=x and dv=e−3xdx

In this case differentiating u gives:

du=dx

and integrating dv gives

v=e−3x−3

Taking C=0 to obtain simplest antiderivative ∵∫e−3xdx=e−3x−3+C

Then by Integration by parts formula

∫(x)(e−3xdx)=−xe−3x3−∫(−e−3x3)dx ∵∫udv=uv−∫vdu =−xe−3x3−e−3x9+C where C is constant.

After simplification

∫(x)(e−3xdx)=−e−3x(3x+1)9+C where C is constant

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Answer 4

Question

Chapter E, Problem 1E

To determine

To Calculate: ∫xe−3xdx

Expert Solution & Answer

Answer to Problem 1E

∫xe−3xdx=−e−3x(3x+1)9+C where C is constant

Explanation of Solution

Given:

∫xe−3xdx

Formula used:

The Integration by parts formula ∫udv=uv−∫vdu .

∫eaxdx=1aeax+C , where C is constant.

Calculation:

∫xe−3xdx can be considered as ∫x(e−3xdx)=∫udv

Where

u=x and dv=e−3xdx

In this case differentiating u gives:

du=dx

and integrating dv gives

v=e−3x−3

Taking C=0 to obtain simplest antiderivative ∵∫e−3xdx=e−3x−3+C

Then by Integration by parts formula

∫(x)(e−3xdx)=−xe−3x3−∫(−e−3x3)dx ∵∫udv=uv−∫vdu =−xe−3x3−e−3x9+C where C is constant.

After simplification

∫(x)(e−3xdx)=−e−3x(3x+1)9+C where C is constant

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Answer 5

Chapter E, Problem 1E

To determine

To Calculate: ∫xe−3xdx

Expert Solution & Answer

Answer to Problem 1E

∫xe−3xdx=−e−3x(3x+1)9+C where C is constant

Explanation of Solution

Given:

∫xe−3xdx

Formula used:

The Integration by parts formula ∫udv=uv−∫vdu .

∫eaxdx=1aeax+C , where C is constant.

Calculation:

∫xe−3xdx can be considered as ∫x(e−3xdx)=∫udv

Where

u=x and dv=e−3xdx

In this case differentiating u gives:

du=dx

and integrating dv gives

v=e−3x−3

Taking C=0 to obtain simplest antiderivative ∵∫e−3xdx=e−3x−3+C

Then by Integration by parts formula

∫(x)(e−3xdx)=−xe−3x3−∫(−e−3x3)dx ∵∫udv=uv−∫vdu =−xe−3x3−e−3x9+C where C is constant.

After simplification

∫(x)(e−3xdx)=−e−3x(3x+1)9+C where C is constant

Answer 6

Chapter E, Problem 1E

To determine

To Calculate: ∫xe−3xdx

Expert Solution & Answer

Answer to Problem 1E

∫xe−3xdx=−e−3x(3x+1)9+C where C is constant

Explanation of Solution

Given:

∫xe−3xdx

Formula used:

The Integration by parts formula ∫udv=uv−∫vdu .

∫eaxdx=1aeax+C , where C is constant.

Calculation:

∫xe−3xdx can be considered as ∫x(e−3xdx)=∫udv

Where

u=x and dv=e−3xdx

In this case differentiating u gives:

du=dx

and integrating dv gives

v=e−3x−3

Taking C=0 to obtain simplest antiderivative ∵∫e−3xdx=e−3x−3+C

Then by Integration by parts formula

∫(x)(e−3xdx)=−xe−3x3−∫(−e−3x3)dx ∵∫udv=uv−∫vdu =−xe−3x3−e−3x9+C where C is constant.

After simplification

∫(x)(e−3xdx)=−e−3x(3x+1)9+C where C is constant

Answer 7

Chapter E, Problem 1E

To determine

To Calculate: ∫xe−3xdx

Answer 8

Expert Solution & Answer

Answer to Problem 1E

∫xe−3xdx=−e−3x(3x+1)9+C where C is constant

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

Explanation of Solution

Given:

∫xe−3xdx

Formula used:

The Integration by parts formula ∫udv=uv−∫vdu .

∫eaxdx=1aeax+C , where C is constant.

Calculation:

∫xe−3xdx can be considered as ∫x(e−3xdx)=∫udv

Where

u=x and dv=e−3xdx

In this case differentiating u gives:

du=dx

and integrating dv gives

v=e−3x−3

Taking C=0 to obtain simplest antiderivative ∵∫e−3xdx=e−3x−3+C

Then by Integration by parts formula

∫(x)(e−3xdx)=−xe−3x3−∫(−e−3x3)dx ∵∫udv=uv−∫vdu =−xe−3x3−e−3x9+C where C is constant.

After simplification

∫(x)(e−3xdx)=−e−3x(3x+1)9+C where C is constant

Answer 12

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

∫ x e − 3 x d x

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To Calculate: ∫xe−3xdx

Answer to Problem 1E

Explanation of Solution

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Chapter E Solutions