Joule
SI . . . . . meter3 CGS . . . . centimeter3
The ratio of SI unit of density (kg/m^3) to the cgs unit of density (g/cm^3) is 1000:1. This means that 1 kg/m^3 is equivalent to 1 gram/cm^3.
In the CGS system, the unit of frequency is measured in hertz (Hz), just like in the International System of Units (SI).
Heat is a form of energy. In terms of kinetic theory it can be defined asthe sum of kinetic energy of molecules in a sample of a substance.-- Its SI unit is the Joule.-- Its CGS unit is the erg = 10-7 joule.Comment'Heat' is energy in transit between a warmer body and a cooler body. The definition given in the original answer is for 'internal energy', not heat.
The CGS unit of charge is the statcoulomb, while the SI unit of charge is the coulomb. The relation between them is that 1 statcoulomb is equal to 3.33564 x 10^-10 coulombs.
SI . . . . . meter3 CGS . . . . centimeter3
The ratio of SI unit of density (kg/m^3) to the cgs unit of density (g/cm^3) is 1000:1. This means that 1 kg/m^3 is equivalent to 1 gram/cm^3.
Work is measured in joules.The unit of work is the joule (J).Please see the related link.The joule is the SI unit of work and heat.
The ratio of the SI unit and CGS unit of power is 1 Watt to 10^7 ergs per second. If muscle times speed equals power, then the ratio for muscle force in Newtons to dynes (CGS unit of force) would be 1:10^5.
SI and CGS unit of porosity is the constant between the molar fluxes. This is due to molecular diffusion and the gradient.
The ratio between cgs (centimeter-gram-second) units and SI (International System of Units) units varies depending on the specific unit being considered. For example, the ratio for the unit of length is 1 cm = 0.01 m, while the ratio for the unit of mass is 1 g = 0.001 kg. It's important to convert between these systems when working with different units in physical sciences.
The SI unit of stress is N/m2. The CGS unit is dyne/cm2.
Certainly! Length - CGS: centimeter (cm), SI: meter (m) Mass - CGS: gram (g), SI: kilogram (kg) Time - CGS: second (s), SI: second (s) Temperature - CGS: degree Celsius (°C), SI: Kelvin (K) Electric Current - CGS: electromagnetic unit (emu), SI: ampere (A) Luminous Intensity - CGS: spheotilumen (sp), SI: candela (cd) Amount of Substance - CGS: mole (mol), SI: mole (mol) Velocity - CGS: cm/s, SI: m/s Acceleration - CGS: cm/s^2, SI: m/s^2 Force - CGS: dyne (dyn), SI: newton (N) Energy - CGS: erg (erg), SI: joule (J) Power - CGS: erg/s, SI: watt (W) Pressure - CGS: barye (Ba), SI: pascal (Pa) Electric Charge - CGS: statcoulomb (esu), SI: coulomb (C) Electric Potential - CGS: statvolt (statV), SI: volt (V)
The SI unit of sound is the decibel (dB), which measures sound intensity. In the CGS system, the unit of sound is the bel (B), where 1 bel is equivalent to 10 decibels.
(MKS)or(SI)- joule CGS- erg
The CGS unit of force is the dyne, while the SI unit of force is the newton. 1 newton is equal to 10^5 dynes.
The SI unit of density is kilograms per cubic meter (kg/m^3), while the CGS unit of density is grams per cubic centimeter (g/cm^3).