Magnitude scale derivatives are formed from one or more quantities of goods available. Quantities are all things that have value and can be expressed with numbers.
Example is the area which is a derivative of unit length with units of square meters or m rank 2 (m ^ 2). Size is obtained from multiplying the length by length.
The following are various examples of the amount of derivatives in accordance with the international system / SI derived from the MKS system (meter - kilogram - second / second):- Magnitude of joule unit of energy derivatives with the symbols J
- Magnitude of the force derivative unit with the symbol N newton
- The value of derivatives watt power unit with the symbol W
- Magnitude of the pressure derivative of the unit with the symbol Pa pascal
- Magnitude of the frequency derivative of the unit with the symbol Hz Hertz
- Quantities derived unit of electric charge coulomb with the symbols C
- The value of derivatives unit volt potential difference with the symbol V
- Quantities derived unit ohm electrical resistance with ohm symbol
- Quantities derived unit farad capacitor capacity with the symbol F
- Magnitude of magnetic flux derivative tesla unit with the symbol T
- Magnitude of unit henry inductance derivative with the symbols H
- Magnitude of flux derivatives lumens of light with the symbol unit ln
- Magnitude of strong derivatives with the symbols of lighting units lux lx
Example is the area which is a derivative of unit length with units of square meters or m rank 2 (m ^ 2). Size is obtained from multiplying the length by length.
The following are various examples of the amount of derivatives in accordance with the international system / SI derived from the MKS system (meter - kilogram - second / second):- Magnitude of joule unit of energy derivatives with the symbols J
- Magnitude of the force derivative unit with the symbol N newton
- The value of derivatives watt power unit with the symbol W
- Magnitude of the pressure derivative of the unit with the symbol Pa pascal
- Magnitude of the frequency derivative of the unit with the symbol Hz Hertz
- Quantities derived unit of electric charge coulomb with the symbols C
- The value of derivatives unit volt potential difference with the symbol V
- Quantities derived unit ohm electrical resistance with ohm symbol
- Quantities derived unit farad capacitor capacity with the symbol F
- Magnitude of magnetic flux derivative tesla unit with the symbol T
- Magnitude of unit henry inductance derivative with the symbols H
- Magnitude of flux derivatives lumens of light with the symbol unit ln
- Magnitude of strong derivatives with the symbols of lighting units lux lx
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