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Units[Converter]

 GetDimensions
 list all dimensions in the Unit Converter

 Calling Sequence GetDimensions()

Description

 • The GetDimensions() function returns an expression sequence of all dimensions in the Unit Converter.

Examples

 > $\mathrm{with}\left(\mathrm{Units}[\mathrm{Converter}]\right):$
 > $\mathrm{nops}\left(\left\{\mathrm{GetDimensions}\left(\right)\right\}\right)$
 ${56}$ (1)
 > $\mathrm{GetDimensions}\left(\right)$
 ${\mathrm{mass}}{}{{\mathrm{length}}}^{{2}}{,}\frac{{\mathrm{length}}}{{\mathrm{time}}}{,}\frac{{{\mathrm{length}}}^{{3}}}{{\mathrm{time}}}{,}\frac{{\mathrm{mass}}}{{{\mathrm{time}}}^{{3}}{}{\mathrm{thermodynamic_temperature}}}{,}{\mathrm{mass}}{,}\frac{{\mathrm{mass}}{}{{\mathrm{length}}}^{{2}}}{{{\mathrm{time}}}^{{2}}}{,}\frac{{\mathrm{electric_current}}{}{\mathrm{time}}}{{\mathrm{amount_of_substance}}}{,}\frac{{\mathrm{luminous_intensity}}}{{{\mathrm{length}}{}\left({\mathrm{radius}}\right)}^{{2}}}{,}\frac{{\mathrm{luminous_intensity}}}{{{\mathrm{length}}}^{{2}}}{,}{\mathrm{logarithmic_gain}}{,}\frac{{{\mathrm{length}}}^{{2}}}{{\mathrm{time}}}{,}\frac{{\mathrm{time}}}{{\mathrm{length}}}{,}\frac{{\mathrm{length}}}{{\mathrm{length}}{}\left({\mathrm{radius}}\right){}{{\mathrm{time}}}^{{2}}}{,}\frac{{{\mathrm{length}}{}\left({\mathrm{dose_equivalent_index}}\right)}^{{2}}{}{\mathrm{mass}}{}\left({\mathrm{dose_equivalent_index}}\right)}{{{\mathrm{time}}{}\left({\mathrm{dose_equivalent_index}}\right)}^{{2}}{}{\mathrm{mass}}}{,}\frac{{\mathrm{length}}{}{\mathrm{mass}}}{{\mathrm{time}}}{,}{\mathrm{thermodynamic_temperature}}{,}\frac{{{\mathrm{length}}}^{{2}}{}{\mathrm{mass}}}{{{\mathrm{time}}}^{{2}}{}{\mathrm{thermodynamic_temperature}}}{,}\frac{{{\mathrm{length}}}^{{2}}{}{\mathrm{mass}}}{{{\mathrm{time}}}^{{3}}{}{{\mathrm{electric_current}}}^{{2}}}{,}{\mathrm{luminous_intensity}}{,}{\mathrm{length}}{,}\frac{{\mathrm{mass}}{}{\mathrm{length}}{}{\mathrm{length}}{}\left({\mathrm{radius}}\right)}{{{\mathrm{time}}}^{{2}}}{,}{{\mathrm{length}}}^{{2}}{,}\frac{{\mathrm{mass}}}{{\mathrm{length}}}{,}\frac{{\mathrm{mass}}}{{{\mathrm{length}}}^{{2}}}{,}\frac{{{\mathrm{length}}}^{{2}}}{{{\mathrm{length}}{}\left({\mathrm{radius}}\right)}^{{2}}}{,}\frac{{{\mathrm{time}}}^{{3}}{}{\mathrm{thermodynamic_temperature}}}{{\mathrm{mass}}}{,}\frac{{\mathrm{mass}}}{{\mathrm{time}}}{,}\frac{{\mathrm{mass}}}{{\mathrm{length}}{}{\mathrm{time}}}{,}{{\mathrm{length}}}^{{3}}{,}\frac{{{\mathrm{length}}{}\left({\mathrm{radiation}}\right)}^{{2}}{}{\mathrm{mass}}{}\left({\mathrm{radiation}}\right)}{{{\mathrm{time}}{}\left({\mathrm{radiation}}\right)}^{{2}}{}{\mathrm{mass}}}{,}{\mathrm{amount_of_information}}{,}\frac{{{\mathrm{length}}}^{{2}}{}{\mathrm{mass}}}{{{\mathrm{time}}}^{{2}}{}{{\mathrm{electric_current}}}^{{2}}}{,}\frac{{{\mathrm{length}}}^{{2}}}{{{\mathrm{time}}}^{{2}}{}{\mathrm{thermodynamic_temperature}}}{,}\frac{{\mathrm{length}}}{{\mathrm{length}}{}\left({\mathrm{radius}}\right){}{\mathrm{time}}}{,}\frac{{\mathrm{mass}}{}{\mathrm{length}}}{{{\mathrm{time}}}^{{2}}}{,}\frac{{\mathrm{length}}}{{{\mathrm{time}}}^{{2}}}{,}\frac{{{\mathrm{length}}}^{{2}}{}{\mathrm{mass}}}{{{\mathrm{time}}}^{{3}}}{,}\frac{{1}}{{\mathrm{time}}}{,}{\mathrm{time}}{,}\frac{{\mathrm{length}}}{{{\mathrm{time}}}^{{3}}}{,}\frac{{\mathrm{mass}}}{{{\mathrm{time}}}^{{3}}}{,}\frac{{\mathrm{mass}}{}{{\mathrm{length}}}^{{2}}}{{{\mathrm{time}}}^{{3}}{}{\mathrm{electric_current}}}{,}\frac{{{\mathrm{electric_current}}}^{{2}}{}{{\mathrm{time}}}^{{4}}}{{{\mathrm{length}}}^{{3}}{}{\mathrm{mass}}}{,}\frac{{\mathrm{length}}}{{\mathrm{length}}{}\left({\mathrm{radius}}\right)}{,}\frac{{\mathrm{mass}}}{{\mathrm{length}}{}{{\mathrm{time}}}^{{2}}}{,}\frac{{\mathrm{mass}}{}{{\mathrm{length}}}^{{2}}}{{{\mathrm{time}}}^{{2}}{}{\mathrm{electric_current}}}{,}\frac{{{\mathrm{length}}}^{{2}}{}{\mathrm{mass}}}{{\mathrm{time}}}{,}{\mathrm{electric_current}}{,}\frac{{\mathrm{mass}}}{{{\mathrm{time}}}^{{2}}{}{\mathrm{electric_current}}}{,}{\mathrm{electric_current}}{}{\mathrm{time}}{,}\frac{{\mathrm{mass}}}{{{\mathrm{length}}}^{{3}}}{,}\frac{{{\mathrm{electric_current}}}^{{2}}{}{{\mathrm{time}}}^{{4}}}{{\mathrm{mass}}{}{{\mathrm{length}}}^{{2}}}{,}\frac{{\mathrm{length}}{}{\mathrm{mass}}}{{{\mathrm{time}}}^{{3}}{}{\mathrm{thermodynamic_temperature}}}{,}\frac{{\mathrm{length}}{}\left({\mathrm{thrust}}\right){}{\mathrm{mass}}{}\left({\mathrm{thrust}}\right)}{{{\mathrm{time}}{}\left({\mathrm{thrust}}\right)}^{{2}}{}{\mathrm{mass}}}{,}\frac{{{\mathrm{time}}}^{{3}}{}{{\mathrm{electric_current}}}^{{2}}}{{{\mathrm{length}}}^{{2}}{}{\mathrm{mass}}}{,}\frac{{\mathrm{mass}}}{{{\mathrm{time}}}^{{2}}}$ (2)