Evaluate

aniti-derivative (7x^4+112x^3+63)/x^5+20x^4+45+2 dx

Question

Evaluate

aniti-derivative (7x^4+112x^3+63)/x^5+20x^4+45+2 dx

anonymous · Answer

take out 7 as common factor from numerator and put denominator =x and diff

amistre64 · Answer

$$\int\limits_{}\frac{7x^4 +112x^3+63}{x^5+20x^4+45(??)+2}dx$$

anonymous · Answer

I have gotten to
7(x^4 + 16x^3 + 9)/(x^4 +16x^3 + 9)

anonymous · Answer

the 45  i left out the x
should be 45x

anonymous · Answer

when diff. denominator we get, 5x^4+80x^3 +45 or 5(x^4+16x^3+9)

anonymous · Answer

that should be the du isn't it???

anonymous · Answer

(5x^4+80x^3 +45)dx= dt
5(x^4+16x^3+9)dx=dt
(x^4+16x^3+9)dx=dt/5

amistre64 · Answer

mutilpy the top and bottom by 5/7  to get the top as the derivative of the bottom

amistre64 · Answer

$$\int\limits_{} \frac{\frac{5}{7}7(x^4+16x^3+9)}{\frac{5}{7}(x^5 +20x^4 +45x +2)}dx$$

amistre64 · Answer

pull out the bottom "5/7" and you got a ln(bottom) as a result:$$\frac{7}{5} \ln(x^5+20x^4+45x+2) +C$$

anonymous · Answer

didn't we need to substitue somewhere??

amistre64 · Answer

I did, really:

u = x^5+20x^4+45x+2

du = 5(x^4 +16^3 +9)

amistre64 · Answer

the top there has a "7" clogging the works; so we multiply by a convient form of "1" to solve it.  (5/7)*7 = 5 tada.... so (5/7)/(5/7) can be multiplied to the problem without changing its value...only its "shape"

amistre64 · Answer

We turned it into the form:$$\frac{7}{5}\int\limits_{}\frac{du}{u}$$

anonymous · Answer

$$7\int\limits_{?}^{?} 1/x^5 + 16x^3 + 9 (x^4+4x^3+2)dx$$in my books examples I have a problem that is similar to this one and I have a step in there that I don't see that you have

7

anonymous · Answer

between the 9 and (x^4 they are not on the same line th (x^4 is next to the fraction

amistre64 · Answer

$$7 \int\limits_{}\frac{\frac{1}{x^5}+16x^3+9}{x^4+4x^3+2}dx$$ like this?

amistre64 · Answer

frac{top}{bottom} is how you get the line between them like that

anonymous · Answer

I guess it is called differentiate
1/x^5+16x^3+9     then next to this fraction is (x^4+4x^3+2)dx

anonymous · Answer

1frac{top}{bottom}x^5 +16x^3 +9     x^4+4x^3+2dx

anonymous · Answer

never mind that didn't work

amistre64 · Answer

$$\int\limits_{}\frac{(x^4+4x^3+2)}{x^5+16x^3+9}dx$$ is what the amounts to then...

amistre64 · Answer

$$u = x^5 +16x^3 +9; du=5x^4+48x^2$$

anonymous · Answer

$$7\int\limits_{?}^{?}$$ then the equation you have

amistre64 · Answer

the "du" of that problem isnt wroking to our advantage really.  w would need the top part to BE the derivative of the bottom.

Unless theres a typo in what you gave me, it looks like a different problem altogether

anonymous · Answer

well I thought I would try this on my own, but I guess I confussed my self even more. I did more than what I needed. The orginal problem what correct just the 45 needed an x (45x)