Integral(integral e^{x/y} dy from x to 1)dx from 0 to 1

Minerva Kline

Minerva Kline

Answered question

2021-12-07

Integral(integral exy dy from x to 1)dx from 0 to 1

Answer & Explanation

Stephanie Mann

Stephanie Mann

Beginner2021-12-08Added 25 answers

Step 1
To compute the double integral.
Step 2
Given:
01[x1exydx]dy
Step 3
Compute the integral as,
01[x1exydx]dy=01[exy1y]x1dy
=01y(e1yexy)dy
=01e1yyexyydy
I1=01e1yydy
=[12e1yy212e1ydy]01
=diverges
01[x1exydx]dy=÷ers
Step 4
Thus, the integral is divergent.
xleb123

xleb123

Skilled2023-06-19Added 181 answers

Step 1: Evaluate the inner integral with respect to y:
x1exydy&=[yexy]x1(Using the fundamental theorem of calculus)&=1·ex1x·exx&=exxe.
Step 2: Integrate the result from Step 1 with respect to x:
01(exxe)dx&=[exdxxedx]01&=[exx22]01&=e1122(e0022)&=e12(10)&=e121&=e32.
Therefore, the value of the given integral 01(x1exydy)dx is e32.
Andre BalkonE

Andre BalkonE

Skilled2023-06-19Added 110 answers

Result: Integral is 1.
Solution:
First, let's integrate with respect to y:
x1exydy
Using the substitution u=xy, we can find du=xy2dy.
When y=x, u=xx=1, and when y=1, u=x1=x.
Now, we can rewrite the integral as:
1xeudu
Integrating with respect to u, we have:
[eu]1x
Substituting the limits, we get:
(exe1)=(exe)
Now, we need to integrate this expression with respect to x:
01(exe)dx
Integrating term by term, we have:
[ex]01+[ex]01
Substituting the limits, we get:
(e1e0)+e=e+e0+e=e+1+e=1
Therefore, the value of the given integral is 1.
fudzisako

fudzisako

Skilled2023-06-19Added 105 answers

To solve the integral 01(x1exydy)dx, we'll evaluate the inner integral first and then the outer integral.
Let's begin by solving the inner integral:
x1exydy
To evaluate this integral, we can use a change of variables. Let's substitute u=xy. This implies du=xy2dy, which we can rearrange as dy=y2xdu.
Substituting these values, the integral becomes:
x1exydy=x1xxeu(y2x)du=1x1xy2eudu
Now, let's solve the remaining integral:
1xy2eudu
This integral is straightforward to evaluate. We can integrate y2 with respect to u and then apply the limits:
1xy2eudu=[y2eu]1x=x2exe
Substituting this result back into the previous expression, we have:
1x1xy2eudu=1x(x2exe)=xex+ex
Now, let's calculate the outer integral:
01(xex+ex)dx
To evaluate this integral, we'll integrate each term separately:
01xexdx+01exdx
For the first integral, we can use integration by parts. Let u=x and dv=exdx. Then, du=dx and v=ex. Applying the integration by parts formula:
udv=uvvdu
we have:
01xexdx=[xex]0101(ex)dx=e+01exdx=e+[ex]01=e+e1=1
For the second integral, we have:
01exdx=e011xdx
This integral diverges at x=0, so we need to evaluate it as an improper integral:
e011xdx=elima0+a11xdx=elima0+[ln|x|]a1=elima0+(ln1lna)=elima0+(lna)
The limit lima0+(lna) is equal to infinity, so the second integral diverges.
Therefore, the value of the given integral is 1.

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