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Moment of inertia

Values for calculation

$ \{\text{Value}\in\mathbb{R}\} $
This set includes all real numbers.
$ \text{Value} $

Moment of inertia converter

Moment of inertia converter from kilogram square meter to kilogram square centimeter

$$ 1\ \mathrm{kg\cdot\ m^2}={1}\cdot{10^4}\ \mathrm{kg\cdot\ cm^2}=10000\ \mathrm{kg\cdot\ cm^2} $$
$ 10000\ \mathrm{kg\cdot\ cm^2} $
Unrounded result
10000
$1\ \mathrm{kg\cdot\ m^2}={1}\cdot{10^4}\ \mathrm{kg\cdot\ cm^2}=10000\ \mathrm{kg\cdot\ cm^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}={1}\cdot{10^4}\ \mathrm{kg\cdot\ cm^2}=10000\ \mathrm{kg\cdot\ cm^2}

Moment of inertia converter from kilogram square meter to kilogram square millimeter

$$ 1\ \mathrm{kg\cdot\ m^2}={1}\cdot{10^6}\ \mathrm{kg\cdot\ mm^2}=1000000\ \mathrm{kg\cdot\ mm^2} $$
$ 1000000\ \mathrm{kg\cdot\ mm^2} $
Unrounded result
1000000
$1\ \mathrm{kg\cdot\ m^2}={1}\cdot{10^6}\ \mathrm{kg\cdot\ mm^2}=1000000\ \mathrm{kg\cdot\ mm^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}={1}\cdot{10^6}\ \mathrm{kg\cdot\ mm^2}=1000000\ \mathrm{kg\cdot\ mm^2}

Moment of inertia converter from kilogram square meter to gram square centimeter

$$ 1\ \mathrm{kg\cdot\ m^2}={1}\cdot{10^7}\ \mathrm{g\cdot\ cm^2}=10000000\ \mathrm{g\cdot\ cm^2} $$
$ 10000000\ \mathrm{g\cdot\ cm^2} $
Unrounded result
10000000
$1\ \mathrm{kg\cdot\ m^2}={1}\cdot{10^7}\ \mathrm{g\cdot\ cm^2}=10000000\ \mathrm{g\cdot\ cm^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}={1}\cdot{10^7}\ \mathrm{g\cdot\ cm^2}=10000000\ \mathrm{g\cdot\ cm^2}

Moment of inertia converter from kilogram square meter to gram square millimeter

$$ 1\ \mathrm{kg\cdot\ m^2}={1}\cdot{10^9}\ \mathrm{g\cdot\ mm^2}=1000000000\ \mathrm{g\cdot\ mm^2} $$
$ 1000000000\ \mathrm{g\cdot\ mm^2} $
Unrounded result
1000000000
$1\ \mathrm{kg\cdot\ m^2}={1}\cdot{10^9}\ \mathrm{g\cdot\ mm^2}=1000000000\ \mathrm{g\cdot\ mm^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}={1}\cdot{10^9}\ \mathrm{g\cdot\ mm^2}=1000000000\ \mathrm{g\cdot\ mm^2}

Moment of inertia converter from kilogram square meter to kilogram-force meter square second

$$ 1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{9.80665}\ \mathrm{kgf\cdot\ m\cdot\ s^2}=0.102\ \mathrm{kgf\cdot\ m\cdot\ s^2} $$
$ 0.10197162129779\ \mathrm{kgf\cdot\ m\cdot\ s^2} $
Unrounded result
0.10197162129779
$1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{9.80665}\ \mathrm{kgf\cdot\ m\cdot\ s^2}=0.102\ \mathrm{kgf\cdot\ m\cdot\ s^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{9.80665}\ \mathrm{kgf\cdot\ m\cdot\ s^2}=0.102\ \mathrm{kgf\cdot\ m\cdot\ s^2}

Moment of inertia converter from kilogram square meter to kilogram-force centimeter square second

$$ 1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{9.80665\cdot 10^{-2}}\ \mathrm{kgf\cdot\ cm\cdot\ s^2}=10.2\ \mathrm{kgf\cdot\ cm\cdot\ s^2} $$
$ 10.197162129779\ \mathrm{kgf\cdot\ cm\cdot\ s^2} $
Unrounded result
10.197162129779
$1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{9.80665\cdot 10^{-2}}\ \mathrm{kgf\cdot\ cm\cdot\ s^2}=10.2\ \mathrm{kgf\cdot\ cm\cdot\ s^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{9.80665\cdot 10^{-2}}\ \mathrm{kgf\cdot\ cm\cdot\ s^2}=10.2\ \mathrm{kgf\cdot\ cm\cdot\ s^2}

Moment of inertia converter from kilogram square meter to ounce square inch

$$ 1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{\left(0.45359237/16\right)\cdot\left(0.9144/36\right)^2}\ \mathrm{oz\cdot\ in^2}=54674.8\ \mathrm{oz\cdot\ in^2} $$
$ 54674.75037135\ \mathrm{oz\cdot\ in^2} $
Unrounded result
54674.75037135
$1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{\left(0.45359237/16\right)\cdot\left(0.9144/36\right)^2}\ \mathrm{oz\cdot\ in^2}=54674.8\ \mathrm{oz\cdot\ in^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{\left(0.45359237/16\right)\cdot\left(0.9144/36\right)^2}\ \mathrm{oz\cdot\ in^2}=54674.8\ \mathrm{oz\cdot\ in^2}

Moment of inertia converter from kilogram square meter to ounce-force inch square second

$$ 1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{\left(8896.4432305/2\cdot 10^{-3}\cdot 0.0625\right)\cdot\left(0.9144/36\right)}\ \mathrm{ozf\cdot\ in\cdot\ s^2}=141.6\ \mathrm{ozf\cdot\ in\cdot\ s^2} $$
$ 141.61193266157\ \mathrm{ozf\cdot\ in\cdot\ s^2} $
Unrounded result
141.61193266157
$1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{\left(8896.4432305/2\cdot 10^{-3}\cdot 0.0625\right)\cdot\left(0.9144/36\right)}\ \mathrm{ozf\cdot\ in\cdot\ s^2}=141.6\ \mathrm{ozf\cdot\ in\cdot\ s^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{\left(8896.4432305/2\cdot 10^{-3}\cdot 0.0625\right)\cdot\left(0.9144/36\right)}\ \mathrm{ozf\cdot\ in\cdot\ s^2}=141.6\ \mathrm{ozf\cdot\ in\cdot\ s^2}

Moment of inertia converter from kilogram square meter to pound square foot

$$ 1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{0.45359237\cdot\left(0.9144/3\right)^2}\ \mathrm{lb\cdot\ ft^2}=23.73\ \mathrm{lb\cdot\ ft^2} $$
$ 23.730360404232\ \mathrm{lb\cdot\ ft^2} $
Unrounded result
23.730360404232
$1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{0.45359237\cdot\left(0.9144/3\right)^2}\ \mathrm{lb\cdot\ ft^2}=23.73\ \mathrm{lb\cdot\ ft^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{0.45359237\cdot\left(0.9144/3\right)^2}\ \mathrm{lb\cdot\ ft^2}=23.73\ \mathrm{lb\cdot\ ft^2}

Moment of inertia converter from kilogram square meter to pound-force foot square second

$$ 1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{\left(8896.4432305/2\cdot10^{-3}\right)\cdot\left(0.9144/3\right)}\ \mathrm{lbf\cdot\ ft\cdot\ s^2}=0.738\ \mathrm{lbf\cdot\ ft\cdot\ s^2} $$
$ 0.73756214927901\ \mathrm{lbf\cdot\ ft\cdot\ s^2} $
Unrounded result
0.73756214927901
$1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{\left(8896.4432305/2\cdot10^{-3}\right)\cdot\left(0.9144/3\right)}\ \mathrm{lbf\cdot\ ft\cdot\ s^2}=0.738\ \mathrm{lbf\cdot\ ft\cdot\ s^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{\left(8896.4432305/2\cdot10^{-3}\right)\cdot\left(0.9144/3\right)}\ \mathrm{lbf\cdot\ ft\cdot\ s^2}=0.738\ \mathrm{lbf\cdot\ ft\cdot\ s^2}

Moment of inertia converter from kilogram square meter to pound square inch

$$ 1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{0.45359237\cdot\left(0.9144/36\right)^2}\ \mathrm{lb\cdot\ in^2}=3417.2\ \mathrm{lb\cdot\ in^2} $$
$ 3417.1718982094\ \mathrm{lb\cdot\ in^2} $
Unrounded result
3417.1718982094
$1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{0.45359237\cdot\left(0.9144/36\right)^2}\ \mathrm{lb\cdot\ in^2}=3417.2\ \mathrm{lb\cdot\ in^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{0.45359237\cdot\left(0.9144/36\right)^2}\ \mathrm{lb\cdot\ in^2}=3417.2\ \mathrm{lb\cdot\ in^2}

Moment of inertia converter from kilogram square meter to pound-force inch square second

$$ 1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{\left(8896.4432305/2\cdot 10^{-3}\right)\cdot\left(0.9144/36\right)}\ \mathrm{lbf\cdot\ in\cdot\ s^2}=8.85\ \mathrm{lbf\cdot\ in\cdot\ s^2} $$
$ 8.8507457913481\ \mathrm{lbf\cdot\ in\cdot\ s^2} $
Unrounded result
8.8507457913481
$1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{\left(8896.4432305/2\cdot 10^{-3}\right)\cdot\left(0.9144/36\right)}\ \mathrm{lbf\cdot\ in\cdot\ s^2}=8.85\ \mathrm{lbf\cdot\ in\cdot\ s^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{\left(8896.4432305/2\cdot 10^{-3}\right)\cdot\left(0.9144/36\right)}\ \mathrm{lbf\cdot\ in\cdot\ s^2}=8.85\ \mathrm{lbf\cdot\ in\cdot\ s^2}

Moment of inertia converter from kilogram square meter to slug square foot

$$ 1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{14.593902937\cdot\left(0.9144/3\right)^2}\ \mathrm{slug\cdot\ ft^2}=0.738\ \mathrm{slug\cdot\ ft^2} $$
$ 0.73756214928769\ \mathrm{slug\cdot\ ft^2} $
Unrounded result
0.73756214928769
$1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{14.593902937\cdot\left(0.9144/3\right)^2}\ \mathrm{slug\cdot\ ft^2}=0.738\ \mathrm{slug\cdot\ ft^2}$
Equations in LaTeX code
1\ \mathrm{kg\cdot\ m^2}=\cfrac{1}{14.593902937\cdot\left(0.9144/3\right)^2}\ \mathrm{slug\cdot\ ft^2}=0.738\ \mathrm{slug\cdot\ ft^2}
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