For Charles' Law(V1/T1=V2/T2) T1 and T2 must be in Kelvin temperature scale. This way their is no negatives or zero as 0 on the Kelvin scale would be no kinetic energy (absolute zero) which as never occurred as far as we are aware. The Kelvin temperature scale is Celcius minus 273.15 °. The volume however can be whatever you want as long as V1 and V2 are the same in the equation
Well, pressure has to be kept constant and so does the mass of the gas with Charles's Law. Charles's Law--V1/T1=V2/T2--can be derived from the Combined Gas Law--V1xP1/T1=V2xP2/T2--by keeping the pressure constant which in turn cancels out the pressure in the Combined Gas Law leaving you with Charles's Law. Hope that helps you!
Jacques Charles invented the Charles' Law.
Charles law: T.v=kBoyle law: p.v=k
You are confusing the law of conservation of matter/mass with the law of conservation of energy. The law of conservation of matter/mass states that in a closed system matter is neither created nor destroyed. During a chemical reaction matter is rearranged, it doesn't change forms (energy can change forms). The atoms in the products are the same atoms that were in the reactants.
All chemical reactions obey the law of conservation of matter.
The Boyle-Mariotte law equation is: pV=k, where - p is the pressure - V is the volume - k is a constant specific for the system
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Charles' law relates the volume of a gas to its absolute temperature. V = kT.
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Well, pressure has to be kept constant and so does the mass of the gas with Charles's Law. Charles's Law--V1/T1=V2/T2--can be derived from the Combined Gas Law--V1xP1/T1=V2xP2/T2--by keeping the pressure constant which in turn cancels out the pressure in the Combined Gas Law leaving you with Charles's Law. Hope that helps you!
Well, pressure has to be kept constant and so does the mass of the gas with Charles's Law. Charles's Law--V1/T1=V2/T2--can be derived from the Combined Gas Law--V1xP1/T1=V2xP2/T2--by keeping the pressure constant which in turn cancels out the pressure in the Combined Gas Law leaving you with Charles's Law.
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Boyle's law, for selected variables. Not pressure and temperature, for example.Boyle's law, for selected variables. Not pressure and temperature, for example.Boyle's law, for selected variables. Not pressure and temperature, for example.Boyle's law, for selected variables. Not pressure and temperature, for example.
Kelvin. (K) This can be obtained by adding 273 to any degree that is already in Celsius.
It doesn't matter as long as you measure both voltage and current in same units.
A graph of Charles' Law shows the relationship between Volume vs. Temperature. Volume is placed on the y axis and temperature on the x axis. The relationship is linear if temperature is in units of Kelvin.
Pressure, volume and temperature, and moles of gas are the four principal variables to describe a gas (for example, see related questions on Ideal Gas Law and others). The standard units are: Pressure: atmospheres (atm) Volume: liters (L) Temperature: Kelvin (K) Number of moles are measure in, well, moles.