Get Dimensions - Maple Help

Units

 GetDimensions
 list all dimensions

 Calling Sequence GetDimensions(opts)

Parameters

 opts - (optional) equation of the form 'base'=true or false; specify options of the dimensions

Description

 • The GetDimensions() function returns an expression sequence of all dimensions.
 • The opts argument can contain the following equation.
 'base'=truefalse
 This option specifies whether only base dimensions are returned.  By default, it is set to false.

Examples

 > $\mathrm{with}\left(\mathrm{Units}\right):$
 > $\mathrm{GetDimensions}\left(\right)$
 ${\mathrm{absorbed_dose}}{,}{\mathrm{acceleration}}{,}{\mathrm{action}}{,}{\mathrm{amount_of_information}}{,}{\mathrm{amount_of_substance}}{,}{\mathrm{angular_acceleration}}{,}{\mathrm{angular_jerk}}{,}{\mathrm{angular_speed}}{,}{\mathrm{area}}{,}{\mathrm{crackle}}{,}{\mathrm{currency}}{,}{\mathrm{dose_equivalent}}{,}{\mathrm{drop}}{,}{\mathrm{dynamic_viscosity}}{,}{\mathrm{electric_capacitance}}{,}{\mathrm{electric_charge}}{,}{\mathrm{electric_conductance}}{,}{\mathrm{electric_current}}{,}{\mathrm{electric_dipole_moment}}{,}{\mathrm{electric_displacement}}{,}{\mathrm{electric_field_strength}}{,}{\mathrm{electric_permittivity}}{,}{\mathrm{electric_polarizability}}{,}{\mathrm{electric_potential}}{,}{\mathrm{electric_resistance}}{,}{\mathrm{electric_resistivity}}{,}{\mathrm{energy}}{,}{\mathrm{enthalpy}}{,}{\mathrm{exposure}}{,}{\mathrm{force}}{,}{\mathrm{frequency}}{,}{\mathrm{heat_capacity}}{,}{\mathrm{heat_insulation_coefficient}}{,}{\mathrm{heat_transfer_coefficient}}{,}{\mathrm{illuminance}}{,}{\mathrm{jerk}}{,}{\mathrm{kinematic_viscosity}}{,}{\mathrm{length}}{,}{\mathrm{linear_frequency}}{,}{\mathrm{linear_mass_density}}{,}{\mathrm{lock}}{,}{\mathrm{logarithmic_gain}}{,}{\mathrm{luminous_flux}}{,}{\mathrm{luminous_intensity}}{,}{\mathrm{luminous_luminance}}{,}{\mathrm{magnetic_dipole_moment}}{,}{\mathrm{magnetic_flux}}{,}{\mathrm{magnetic_flux_density}}{,}{\mathrm{magnetic_inductance}}{,}{\mathrm{magnetic_permeability}}{,}{\mathrm{magnetic_polarizability}}{,}{\mathrm{magnetizing_force}}{,}{\mathrm{mass}}{,}{\mathrm{mass_density}}{,}{\mathrm{molar_electric_charge}}{,}{\mathrm{molar_energy}}{,}{\mathrm{moment_of_inertia}}{,}{\mathrm{momentum}}{,}{\mathrm{plane_angle}}{,}{\mathrm{pop}}{,}{\mathrm{power}}{,}{\mathrm{pressure}}{,}{\mathrm{snap}}{,}{\mathrm{solid_angle}}{,}{\mathrm{specific_heat_capacity}}{,}{\mathrm{speed}}{,}{\mathrm{surface_energy_density}}{,}{\mathrm{surface_power_density}}{,}{\mathrm{thermal_conductivity}}{,}{\mathrm{thermodynamic_temperature}}{,}{\mathrm{time}}{,}{\mathrm{torque}}{,}{\mathrm{volume}}{,}{\mathrm{volume_flow}}$ (1)
 > $\mathrm{GetDimensions}\left('\mathrm{base}'=\mathrm{true}\right)$
 ${\mathrm{amount_of_information}}{,}{\mathrm{amount_of_substance}}{,}{\mathrm{currency}}{,}{\mathrm{electric_current}}{,}{\mathrm{length}}{,}{\mathrm{logarithmic_gain}}{,}{\mathrm{luminous_intensity}}{,}{\mathrm{mass}}{,}{\mathrm{thermodynamic_temperature}}{,}{\mathrm{time}}$ (2)