Primitives involving Root of x squared minus a squared cubed

Theorem

This page gathers together the primitives of some expressions involving $\left({\sqrt{x^2 - a^2} }\right)^3$.

Primitive of Reciprocal of $\left({\sqrt{x^2 - a^2} }\right)^3$

$\ds \int \frac {\d x} {\paren {\sqrt {x^2 - a^2} }^3} = \frac {-x} {a^2 \sqrt {x^2 - a^2} } + C$

Primitive of $x$ over $\left({\sqrt{x^2 - a^2} }\right)^3$

$\ds \int \frac {x \rd x} {\paren {\sqrt {x^2 - a^2} }^3} = \frac {-1} {\sqrt {x^2 - a^2} } + C$

Primitive of $x^2$ over $\left({\sqrt{x^2 - a^2} }\right)^3$

$\ds \int \frac {x^2 \rd x} {\paren {\sqrt {x^2 - a^2} }^3} = \frac {-x} {\sqrt {x^2 - a^2} } + \ln \size {x + \sqrt {x^2 - a^2} } + C$

Primitive of $x^3$ over $\left({\sqrt{x^2 - a^2} }\right)^3$

$\ds \int \frac {x^3 \rd x} {\paren {\sqrt {x^2 - a^2} }^3} = \sqrt {x^2 - a^2} - \frac {a^2} {\sqrt {x^2 - a^2} } + C$

Primitive of Reciprocal of $x \left({\sqrt{x^2 - a^2} }\right)^3$

$\ds \int \frac {\d x} {x \paren {\sqrt {x^2 - a^2} }^3} = \frac {-1} {a^2 \sqrt {x^2 - a^2} } - \frac 1 {a^3} \arcsec \size {\frac x a} + C$

Primitive of Reciprocal of $x^2 \left({\sqrt{x^2 - a^2} }\right)^3$

$\ds \int \frac {\d x} {x^2 \paren {\sqrt {x^2 - a^2} }^3} = \frac {-\sqrt {x^2 - a^2} } {a^4 x} - \frac x {a^4 \sqrt {x^2 - a^2} } + C$

Primitive of Reciprocal of $x^3 \left({\sqrt{x^2 - a^2} }\right)^3$

$\ds \int \frac {\d x} {x^3 \paren {\sqrt {x^2 - a^2} }^3} = \frac 1 {2 a^2 x^2 \sqrt {x^2 - a^2} } - \frac 3 {2 a^4 \sqrt {x^2 - a^2} } + \frac 3 {2 a^5} \arcsec \size {\frac x a} + C$

Primitive of $\left({\sqrt{x^2 - a^2} }\right)^3$

$\ds \int \paren {\sqrt {x^2 - a^2} }^3 \rd x = \frac {x \paren {\sqrt {x^2 - a^2} }^3} 4 - \frac {3 a^2 x \sqrt {x^2 - a^2} } 8 + \frac {3 a^4} 8 \ln \size {x + \sqrt {x^2 - a^2} } + C$

Primitive of $x \left({\sqrt{x^2 - a^2} }\right)^3$

$\ds \int x \paren {\sqrt {x^2 - a^2} }^3 \rd x = \frac {\paren {\sqrt {x^2 - a^2} }^5} 5 + C$

Primitive of $x^2 \left({\sqrt{x^2 - a^2} }\right)^3$

$\ds \int x^2 \paren {\sqrt {x^2 - a^2} }^3 \rd x = \frac {x \paren {\sqrt {x^2 - a^2} }^5} 6 + \frac {a^2 x \paren {\sqrt {x^2 - a^2} }^3} {24} - \frac {a^4 x \sqrt {x^2 - a^2} } {16} + \frac {a^6} {16} \ln \size {x + \sqrt {x^2 - a^2} } + C$

Primitive of $x^3 \left({\sqrt{x^2 - a^2} }\right)^3$

$\ds \int x^3 \paren {\sqrt {x^2 - a^2} }^3 \rd x = \frac {\paren {\sqrt {x^2 - a^2} }^7} 7 + \frac {a^2 \paren {\sqrt {x^2 - a^2} }^5} 5 + C$

Primitive of $\left({\sqrt{x^2 - a^2} }\right)^3$ over $x$

$\ds \int \frac {\paren {\sqrt {x^2 - a^2} }^3} x \rd x = \frac {\paren {\sqrt {x^2 - a^2} }^3} 3 - a^2 \sqrt {x^2 - a^2} + a^3 \arcsec \size {\frac x a} + C$

Primitive of $\left({\sqrt{x^2 - a^2} }\right)^3$ over $x^2$

$\ds \int \frac {\paren {\sqrt {x^2 - a^2} }^3} {x^2} \rd x = \frac {-\paren {\sqrt {x^2 - a^2} }^3} x + \frac{3 x \sqrt {x^2 - a^2} } 2 - \frac {3 a^2} 2 \ln \size {x + \sqrt {x^2 - a^2} } + C$

Primitive of $\left({\sqrt{x^2 - a^2} }\right)^3$ over $x^3$

$\ds \int \frac {\paren {\sqrt {x^2 - a^2} }^3} {x^3} \rd x = \frac {-\paren {\sqrt {x^2 - a^2} }^3} {2 x^2} + \frac {3 \sqrt {x^2 - a^2} } 2 - \frac {3 a} 2 \arcsec \size {\frac x a} + C$

Also see

• Primitives involving $\left({\sqrt{x^2 + a^2} }\right)^3$
• Primitives involving $\left({\sqrt{a^2 - x^2} }\right)^3$

• Primitives involving $\sqrt{x^2 - a^2}$