# Simplifying expressions for Integral expression

I am new to Mathematica, and I am trying to simplify this expression when Y=1 and Y1 -> ∞

  X=2 * Pi * Y^2 * Y1 * Integrate[1/((Y^2 + s)^2 * Sqrt[(Y1^2 + s)]),{s,0,∞}]


Assuming[Y > 0 && Y1 > 0,
X = 2 π Y^2 Y1 Integrate[1/((Y^2+s)^2*Sqrt[(Y1^2+s)]), {s,0,∞}]
];
X //TeXForm


$\frac{2 \pi Y \operatorname{Y1} \left(Y \cos ^{-1}\left(\frac{\operatorname{Y1}}{Y}\right)-\operatorname{Y1} \sqrt{1-\frac{\operatorname{Y1}^2}{Y^2}}\right)}{\left(Y^2-\operatorname{Y1}^2\right)^{3/2}}$

Then, replace Y with 1 and take the limit as Y1 goes to $\infty$:

Limit[X /. Y->1, Y1->∞]


2 π

Update

If you're interested in the Y and Y1 dependence for large Y1, you could do:

Series[X,{Y1,Infinity,2},Assumptions->Y>0] //TeXForm


$2 \pi +\frac{2 \pi Y^2}{\operatorname{Y1}^2}+O\left(\left(\frac{1}{\operatorname{Y1}}\right)^3\right)$

• Thank you so much! – Math Apr 19 '18 at 17:27

A new EXPERIMENTAL function in version 11.3 is AsymptoticIntegrate

$Version "11.3.0 for Mac OS X x86 (64-bit) (March 7, 2018)" X = 2*Pi*Y^2*Y1* AsymptoticIntegrate[ 1/((Y^2 + s)^2*Sqrt[(Y1^2 + s)]), {s, 0, ∞}, {Y1, Infinity, 1}] (* 2 π *) X = 2*Pi*Y^2*Y1* AsymptoticIntegrate[ 1/((Y^2 + s)^2*Sqrt[(Y1^2 + s)]), {s, 0, ∞}, {Y1, Infinity, 3}] // FullSimplify (* 2 π (1 + Y^2/Y1^2) *)  • Thank you so much – Math Apr 19 '18 at 22:11 Quite simple. As$Y=1$, then$X$simplifies to: $Version


11.3.0 for Mac OS X x86 (64-bit) (March 7, 2018)

X=2*Pi*Y1*Integrate[1/((1 + s)^2*Sqrt[Y1^2 + s]), {s, 0, Infinity}]


$$\text{ConditionalExpression}\left[\frac{\pi \text{Y1} \sqrt{\text{Y1}^2} \left(\pi \sqrt{\frac{1}{\text{Y1}^2}}-2 \sqrt{1-\text{Y1}^2}-\frac{2 \sin ^{-1}(\text{Y1})}{\text{Y1}}\right)}{\left(1-\text{Y1}^2\right)^{3/2}},\Re\left(\text{Y1}^2\right)>0\right]$$

Now, taking limit when $Y1\rightarrow\infty$:

Limit[X, Y1 -> \[Infinity]]


$2\pi$

• Thank you so much! – Math Apr 19 '18 at 17:28