242.7.5.88 1/((X+2)sqrt(x^2+4x+3)) complete the square

In summary, the conversation discusses the integral of $1/((x+2)\sqrt{x^2+4x+3})$, which can be solved by completing the square and using the substitution $u=\cosh(y)$ or $u=\sec(y)$ to obtain the final result of $\tan^{-1}\left(\sqrt{x^2+4x+3}\right)+C$ or $\cos^{-1}\left(\dfrac{1}{x+2}\right)+C$, respectively.
  • #1
karush
Gold Member
MHB
3,269
5
$\large{242.7.5.88}$
$$\displaystyle
I_{88}=\int\frac{dx}{(x+2)\sqrt{{x}^{2}+4x+3}}=
-\arcsin\left(\dfrac{1}{\left|x+2\right|}\right)+C $$
complete the square of
$${x}^{2}+4x+3 ={x}^{2}+4x+3+1-1=(x+2)^2-1 $$
Set $u=(x+2) \ \ du=dx$ then

$$\displaystyle I_{88}=\int\frac{1}{u \sqrt{u^2-1}} \, du \\

u=\cosh(y) \ \ du=\sinh(y) \, dy$$
$$\displaystyle I_{88}
=\int\frac{\sinh(y)}{\cosh(y) \sqrt{cosh^2(y) -1}} \, dy
=\int. ? $$
 
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  • #2
Try the substitution $u=\cosh(y)$ and refer to here for standard integrals of hyperbolic functions and other information.

$$\int\dfrac{1}{(x+2)\sqrt{x^2+4x+3}}\,dx=\tan^{-1}\left(\sqrt{x^2+4x+3}\right)+C$$

is a result.
 
  • #3
Even simpler, try $u=\sec(y)$.

$$\int\dfrac{1}{(x+2)\sqrt{x^2+4x+3}}\,dx=\cos^{-1}\left(\dfrac{1}{x+2}\right)+C$$

is a result.
 

Related to 242.7.5.88 1/((X+2)sqrt(x^2+4x+3)) complete the square

1. What is the purpose of completing the square in this equation?

Completing the square is a method used to manipulate quadratic equations into a more simplified form, making it easier to solve for the variable. In this case, completing the square helps us to find the derivative of the given expression.

2. How do you complete the square in this equation?

To complete the square, we need to follow these steps:

- Move the constant term to the other side of the equation

- Group the x terms together

- Take half of the coefficient of x, square it, and add it to both sides of the equation

- Factor the perfect square trinomial on the left side

- Simplify the right side of the equation

3. Why is the square root involved in this equation?

The square root is involved because we are completing the square, which requires us to take the square root of a perfect square trinomial. This helps us to simplify the equation and solve for the variable.

4. What is the significance of the constant term in this equation?

The constant term, in this case, is 1, and it is important because it helps us to identify the type of function we are dealing with. In this case, the function is a rational function, and the constant term helps us to determine the end behavior of the function.

5. How can this equation be applied in real-life situations?

This equation can be applied in many real-life situations, such as calculating the velocity of an object in motion or determining the rate of change in a chemical reaction. Completing the square can also be used in optimization problems, where we are trying to find the maximum or minimum value of a function.

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