MASS: kg
LENGTH: mm
TIME: s
ELECTRIC CURRENT: A
THERMODYNAMIC TEMPERATURE: °K
AMOUNT OF SUBSTANCE: mol
PLANE ANGLE: rad
SOLID ANGLE: sr
AREA: mm²
VOLUME: mm³
INERTIA: mm**4
ANGULAR SPEED: rad/s
SPEED: mm/s
ACCELERATION: mm/s²
FREQUENCY: Hz
VOLUMIC MASS: kg/mm³
MASS FLOW: kg/s
VOLUME FLOW: mm³/s
CONSUMPTION: mm²
QUANTITY OF MOVEMENT: kg*mm/s
KINETIC MOMENT: kg*mm²/s
MOMENT OF INERTIA: kg*mm²
FORCE: kg*mm/s²
MOMENT OF A FORCE: kg*mm²/s²
PRESSURE: kg/(mm*s²)
DYNAMIC VISCOSITY: kg/(mm*s)
KINETIC VISCOSITY: mm²/s
TENSION SUPERFICIELLE: mm/s²
ELECTRIC POTENTIAL: V
ENERGY: kg*mm²/s²
POWER:  kg*mm²/s³
LINEIC POWER: kg*mm/s³
SURFACIC POWER: kg/s³
VOLUMIC POWER: kg/(mm*s³)
COEFFICIENT OF LINEAR INFLATION: 1./°K
THERMICAL CONDUCTIVITY: kg*mm/(s³*°K)
THERMICAL CONVECTIVITY: kg/(s³*°K)
THERMICAL MASSIC CAPACITY: mm²/(s²*°K)
ENTROPY: kg*mm²/(s²*°K)
ENTHALPY: kg*mm²/s²
LUMINOUS FLUX: Lu
LUMINANCE: cd/mm²
EXITANCE: lx
LUMINOUS INTENSITY: cd
LUMINOUS EXPOSITION: lx*s
LUMINOUS EFFICACITY: s³*Lu/(kg*mm²)
LUMINOUS FLUX: Lu
ILLUMINANCE: lx
ELECTRIC CHARGE: C
ELECTRIC FIELD: V/mm
ELECTRIC CAPACITANCE: s**4*A²/(kg*mm²)
MAGNETIC FIELD: A/mm
MAGNETIC FLUX DENSITY: T
MAGNETIC FLUX: kg*mm²/(s²*A)
INDUCTANCE: kg*mm²/(s²*A²)
RELUCTANCE: s²*A²/(kg*mm²)
ELECTRIC RESISTANCE: O
ELECTRIC CONDUCTANCE: S
RESISTIVITY: O*mm
CONDUCTIVITY: S/mm
MOLAR MASS: kg/mol
MOLAR VOLUME: mm³/mol
CONCENTRATION: kg/mm³
MOLAR CONCENTRATION: mol/mm³
MOLARITY: mol/kg
ACCOUSTIC INTENSITY: mm/A²
DOSE EQUIVALENT: mm²/s²
ABSORBED DOSE: mm²/s²
ACTIVITY (OF A RADIONUCLEIDE): Be
FLUX OF MAGNETIC INDUCTION: kg*mm\062/(s\062*A)