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0022913: Clean up source repository from unused files
Changes Removed unused files. Files in QAResources have been moved to DrawResources Removing unused files from NCollection (see #23041)
This commit is contained in:
dbv
@@ -1,74 +0,0 @@
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MASS: kg
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LENGTH: m
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TIME: s
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ELECTRIC CURRENT: A
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THERMODYNAMIC TEMPERATURE: <20>K
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AMOUNT OF SUBSTANCE: mol
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PLANE ANGLE: rad
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SOLID ANGLE: sr
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AREA: m<>
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VOLUME: m<>
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INERTIA: m**4
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ANGULAR SPEED: rad/s
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SPEED: m/s
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ACCELERATION: m/s<>
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FREQUENCY: Hz
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VOLUMIC MASS: kg/m<>
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MASS FLOW: kg/s
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VOLUME FLOW: m<>/s
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CONSUMPTION: m<>
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QUANTITY OF MOVEMENT: kg*m/s
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KINETIC MOMENT: kg*m<>/s
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MOMENT OF INERTIA: kg*m<>
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FORCE: N
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MOMENT OF A FORCE: N*m
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LINEIC FORCE: N/m
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PRESSURE: Pa
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DYNAMIC VISCOSITY: Pa/s
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KINETIC VISCOSITY: m<>/s
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TENSION SUPERFICIELLE: m/s<>
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ELECTRIC POTENTIAL: V
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ENERGY: J
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POWER: W
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LINEIC POWER: W/m
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SURFACIC POWER: W/m<>
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VOLUMIC POWER: W/m<>
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COEFFICIENT OF LINEAR INFLATION: 1./<2F>K
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THERMICAL CONDUCTIVITY: W/m/<2F>K
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THERMICAL CONVECTIVITY: W/m<>/<2F>K
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THERMICAL MASSIC CAPACITY: J/kg/<2F>K
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ENTROPY: J/<2F>K
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ENTHALPY: J
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LUMINOUS FLUX: Lu
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LUMINANCE: cd/m<>
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EXITANCE: lx
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LUMINOUS INTENSITY: cd
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LUMINOUS EXPOSITION: lx*s
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LUMINOUS EFFICACITY: Lu/W
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LUMINOUS FLUX: Lu
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ILLUMINANCE: lx
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ELECTRIC CHARGE: C
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ELECTRIC FIELD: V/m
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ELECTRIC CAPACITANCE: F
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MAGNETIC FIELD: A/m
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MAGNETIC FLUX DENSITY: T
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MAGNETIC FLUX: Wb
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INDUCTANCE: H
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RELUCTANCE: 1./H
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ELECTRIC RESISTANCE: O
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ELECTRIC CONDUCTANCE: S
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RESISTIVITY: O*m
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CONDUCTIVITY: S/m
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MOLAR MASS: kg/mol
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MOLAR VOLUME: m<>/mol
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CONCENTRATION: kg/m<>
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MOLAR CONCENTRATION: mol/m<>
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MOLARITY: mol/kg
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ACCOUSTIC INTENSITY: B
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DOSE EQUIVALENT: Si
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ABSORBED DOSE: Gr
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ACTIVITY (OF A RADIONUCLEIDE): Be
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FLUX OF MAGNETIC INDUCTION: kg*m<>/s<>/A
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ROTATION ACCELERATION: rad/s<>
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TRANSLATION STIFFNESS: N/m
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ROTATION STIFFNESS: N*m/rad
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@@ -1,70 +0,0 @@
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MASS: kg
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LENGTH: mm
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TIME: s
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ELECTRIC CURRENT: A
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THERMODYNAMIC TEMPERATURE: <20>K
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AMOUNT OF SUBSTANCE: mol
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PLANE ANGLE: rad
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SOLID ANGLE: sr
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AREA: mm<6D>
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VOLUME: mm<6D>
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INERTIA: mm**4
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ANGULAR SPEED: rad/s
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SPEED: mm/s
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ACCELERATION: mm/s<>
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FREQUENCY: Hz
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VOLUMIC MASS: kg/mm<6D>
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MASS FLOW: kg/s
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VOLUME FLOW: mm<6D>/s
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CONSUMPTION: mm<6D>
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QUANTITY OF MOVEMENT: kg*mm/s
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KINETIC MOMENT: kg*mm<6D>/s
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MOMENT OF INERTIA: kg*mm<6D>
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FORCE: kg*mm/s<>
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MOMENT OF A FORCE: kg*mm<6D>/s<>
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PRESSURE: kg/(mm*s<>)
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DYNAMIC VISCOSITY: kg/(mm*s)
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KINETIC VISCOSITY: mm<6D>/s
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TENSION SUPERFICIELLE: mm/s<>
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ELECTRIC POTENTIAL: V
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ENERGY: kg*mm<6D>/s<>
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POWER: kg*mm<6D>/s<>
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LINEIC POWER: kg*mm/s<>
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SURFACIC POWER: kg/s<>
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VOLUMIC POWER: kg/(mm*s<>)
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COEFFICIENT OF LINEAR INFLATION: 1./<2F>K
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THERMICAL CONDUCTIVITY: kg*mm/(s<>*<2A>K)
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THERMICAL CONVECTIVITY: kg/(s<>*<2A>K)
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THERMICAL MASSIC CAPACITY: mm<6D>/(s<>*<2A>K)
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ENTROPY: kg*mm<6D>/(s<>*<2A>K)
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ENTHALPY: kg*mm<6D>/s<>
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LUMINOUS FLUX: Lu
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LUMINANCE: cd/mm<6D>
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EXITANCE: lx
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LUMINOUS INTENSITY: cd
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LUMINOUS EXPOSITION: lx*s
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LUMINOUS EFFICACITY: s<>*Lu/(kg*mm<6D>)
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LUMINOUS FLUX: Lu
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ILLUMINANCE: lx
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ELECTRIC CHARGE: C
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ELECTRIC FIELD: V/mm
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ELECTRIC CAPACITANCE: s**4*A<>/(kg*mm<6D>)
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MAGNETIC FIELD: A/mm
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MAGNETIC FLUX DENSITY: T
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MAGNETIC FLUX: kg*mm<6D>/(s<>*A)
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INDUCTANCE: kg*mm<6D>/(s<>*A<>)
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RELUCTANCE: s<>*A<>/(kg*mm<6D>)
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ELECTRIC RESISTANCE: O
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ELECTRIC CONDUCTANCE: S
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RESISTIVITY: O*mm
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CONDUCTIVITY: S/mm
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MOLAR MASS: kg/mol
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MOLAR VOLUME: mm<6D>/mol
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CONCENTRATION: kg/mm<6D>
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MOLAR CONCENTRATION: mol/mm<6D>
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MOLARITY: mol/kg
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ACCOUSTIC INTENSITY: mm/A<>
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DOSE EQUIVALENT: mm<6D>/s<>
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ABSORBED DOSE: mm<6D>/s<>
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ACTIVITY (OF A RADIONUCLEIDE): Be
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FLUX OF MAGNETIC INDUCTION: kg*mm\062/(s\062*A)
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@@ -1,74 +0,0 @@
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MASS: kg
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LENGTH: mm
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TIME: s
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ELECTRIC CURRENT: A
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THERMODYNAMIC TEMPERATURE: <20>K
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AMOUNT OF SUBSTANCE: mol
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PLANE ANGLE: rad
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SOLID ANGLE: sr
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AREA: mm<6D>
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VOLUME: mm<6D>
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INERTIA: mm**4
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ANGULAR SPEED: rad/s
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SPEED: mm/s
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ACCELERATION: mm/s<>
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FREQUENCY: Hz
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VOLUMIC MASS: kg/mm<6D>
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MASS FLOW: kg/s
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VOLUME FLOW: mm<6D>/s
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CONSUMPTION: mm<6D>
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QUANTITY OF MOVEMENT: kg*mm/s
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KINETIC MOMENT: kg*mm<6D>/s
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MOMENT OF INERTIA: kg*mm<6D>
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FORCE: kg*mm/s<>
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MOMENT OF A FORCE: kg*mm<6D>/s<>
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LINEIC FORCE: kg/s<>
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PRESSURE: kg/(mm*s<>)
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DYNAMIC VISCOSITY: kg/(mm*s)
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KINETIC VISCOSITY: mm<6D>/s
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TENSION SUPERFICIELLE: mm/s<>
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ELECTRIC POTENTIAL: V
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ENERGY: kg*mm<6D>/s<>
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POWER: kg*mm<6D>/s<>
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LINEIC POWER: kg*mm/s<>
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SURFACIC POWER: kg/s<>
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VOLUMIC POWER: kg/(mm*s<>)
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COEFFICIENT OF LINEAR INFLATION: 1./<2F>K
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THERMICAL CONDUCTIVITY: kg*mm/(s<>*<2A>K)
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THERMICAL CONVECTIVITY: kg/(s<>*<2A>K)
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THERMICAL MASSIC CAPACITY: mm<6D>/(s<>*<2A>K)
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ENTROPY: kg*mm<6D>/(s<>*<2A>K)
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ENTHALPY: kg*mm<6D>/s<>
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LUMINOUS FLUX: Lu
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LUMINANCE: cd/mm<6D>
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EXITANCE: lx
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LUMINOUS INTENSITY: cd
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LUMINOUS EXPOSITION: lx*s
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LUMINOUS EFFICACITY: s<>*Lu/(kg*mm<6D>)
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LUMINOUS FLUX: Lu
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ILLUMINANCE: lx
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ELECTRIC CHARGE: C
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ELECTRIC FIELD: V/mm
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ELECTRIC CAPACITANCE: s**4*A<>/(kg*mm<6D>)
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MAGNETIC FIELD: A/mm
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MAGNETIC FLUX DENSITY: T
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MAGNETIC FLUX: kg*mm<6D>/(s<>*A)
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INDUCTANCE: kg*mm<6D>/(s<>*A<>)
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RELUCTANCE: s<>*A<>/(kg*mm<6D>)
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ELECTRIC RESISTANCE: O
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ELECTRIC CONDUCTANCE: S
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RESISTIVITY: O*mm
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CONDUCTIVITY: S/mm
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MOLAR MASS: kg/mol
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MOLAR VOLUME: mm<6D>/mol
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CONCENTRATION: kg/mm<6D>
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MOLAR CONCENTRATION: mol/mm<6D>
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MOLARITY: mol/kg
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ACCOUSTIC INTENSITY: mm/A<>
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DOSE EQUIVALENT: mm<6D>/s<>
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ABSORBED DOSE: mm<6D>/s<>
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ACTIVITY (OF A RADIONUCLEIDE): Be
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FLUX OF MAGNETIC INDUCTION: kg*mm<6D>/(s<>*A)
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ROTATION ACCELERATION: rad/s<>
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TRANSLATION STIFFNESS: kg/s<>
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ROTATION STIFFNESS: kg*mm<6D>/(s<>*rad)
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