kilogram
meter
The international (SI) unit for mass is the kilogram.
In the metric system, the gram (g) is the named unit in the metric system which takes the various suffixes to measure larger or smaller amounts. However, the basic unit of mass in the SI system is the kilogram (1000g) which is used to define the size of a gram.
Fundamental Quantities (basic unit, abbreviation)Length (meter, m)Mass (kilogram, kg)Time (second, s)Electric current (ampere, A)Thermodynamic temperature (kelvin, K)Amount of substance (mole, mol)Luminous intensity (candela, cd)Another AnswerSI doesn't use the terms 'fundamental' or 'basic', The original answer lists SI BASE UNITS, not 'fundamental' units.
meters, der!
Mass is kilograms Volume is cubic meters
The International System of Units (SI Units) specifies the basic unit of mass to be the kilogram (kg). All other units of mass are derived from this official standard. There is, however something called an Atomic Mass Unit (AMU). It is offically recognized by the International System of Units but is a measured quantity, not a defined quantity. The AMU equals one twelfth of the mass of an atom of carbon-12 and has a value of 1.660538×10−27 kg.
Mass can be measured in kilograms. Kilogram is the basic unit of mass in the International System of Units (SI).
The S.I units of mass is the kilogram. The International System of Units (abbreviated SI )
Kilogram
In the SI system, the basic units are kilogram (mass) meter (distance) second (time) ampere (electric current) kelvin temperature) mole (amount of chemical substance) candela (luminous intensity).
In the International System of Units (SI), that would be the kilogram.
The standard International System of Units (SI) unit of mass is the kilogram (kg).
The kilogram or kilogramme is the base unit of mass in the International System of Units(SI).
length: meter volume: cubic meter mass: kilogram
The SI (International System of Units) base unit for mass is kilogram (kg).
The SI unit of mass is the Kilogram.
Meter. . . . . Length Kilogram . . . Mass Second. . . . Time