The seven fundamental quantities used in chemistry are the quantities and units that include length in meters, time in seconds, mass in kilograms, temperature in Kelvin degrees, chemical amounts in moles, and electrical charge in coulomb. This measurements are given in meter or SI units.
The four fundamental quantities used in measurement are length (meter), mass (kilogram), time (second), and electric current (ampere). These fundamental quantities form the basis of the International System of Units (SI).
A fundamental quantity is a physical quantity that is independent and not defined in terms of other physical quantities. These fundamental quantities form the basis for the measurement of other physical quantities. Examples of fundamental quantities include mass, length, time, and electric charge.
Area and speed are derived quantities because they are obtained by combining base quantities. Area is derived from multiplying two length measurements, while speed is derived from dividing a length measurement by a time measurement. These derived quantities are built upon the fundamental base quantities of length and time.
Fundamental quantities are independent of other physical quantities, while derived quantities are based on combinations of fundamental quantities using mathematical operations. Derived quantities cannot exist without fundamental quantities as they rely on them for their definition and calculation.
Fundamental quantities are basic physical quantities that serve as the foundation for derived quantities. Derived quantities are derived from fundamental quantities through mathematical combinations, such as multiplication or division. For example, velocity is a derived quantity (m/s) derived from fundamental quantities like length (m) and time (s).
The four fundamental quantities used in measurement are length (meter), mass (kilogram), time (second), and electric current (ampere). These fundamental quantities form the basis of the International System of Units (SI).
A fundamental quantity is a physical quantity that is independent and not defined in terms of other physical quantities. These fundamental quantities form the basis for the measurement of other physical quantities. Examples of fundamental quantities include mass, length, time, and electric charge.
Fundamental quantities are quantities that can be measured such as mass, length and temperature. Derived quantities are quantities that has to be calculated such as pressure, volume and work done.AnswerThe SI does not define 'fundamental quantity', instead it uses the term 'Base Unit'. All other units are 'Derived Units', so-called because they are each derived from combinations of Base Units.
Length, mass, and time are the three fundamental dimensions on which the measurement of all physical quantities is dependent.
Area and speed are derived quantities because they are obtained by combining base quantities. Area is derived from multiplying two length measurements, while speed is derived from dividing a length measurement by a time measurement. These derived quantities are built upon the fundamental base quantities of length and time.
Fundamental quantities are independent of other physical quantities, while derived quantities are based on combinations of fundamental quantities using mathematical operations. Derived quantities cannot exist without fundamental quantities as they rely on them for their definition and calculation.
Fundamental quantities are those which do not depend on other quantities. (i.e. temperature, mass, length)Derived quantities are those which depend on fundamental quantities. (i.e. force, volume, density)
Fundamental quantities are basic physical quantities that serve as the foundation for derived quantities. Derived quantities are derived from fundamental quantities through mathematical combinations, such as multiplication or division. For example, velocity is a derived quantity (m/s) derived from fundamental quantities like length (m) and time (s).
There are seven SI fundamental quantities of measurement.Base Quantity/Unit/Abbreviationmass/kilogram/kglength/meter/ mtime/second/selectric current/ampere/Aamount of substance/mole/molthermodynamic temperature/kelvin/Kluminous intensity/candela/cd
the differentiate between fundamental quantity and derived quantity?
Fundamental quantities r those which r independent of other quantities and r scaler and on the other hand derived quantities r those which depends on fundamental quantities!! For example metre sqaure!
1. Length 2. Mass 3. Time 4. Temperature 5. Electric Current 6. Amount of Substance 7. Luminous intensity Comment SI doesn't use the term, 'fundamental'. Those units listed above are termed 'base' units.