(Explanation) this is simply taking the ideal gas law PV=nRT, and dividing by P on both sides to isolate the V, kinda like solving an algebra problem
V=nRT/P
Make V explicit in the general for of the gas law: P.V = n.R.T then you get V = (n.R.T) / P
The ideal gas law is:PV = nRT,where:- P is pressure- V is volume- n is moles of substance- R is the gas constant- T is the temperature
The formula is: T = PV/nR, Where: * T is the temperature in kelvin * P is the pressure in atmospheres * n is the number of moles * R is the gas constant
Gases adopt the form of the container it contains an hasn't a constant volume.. A liquid adopt the form of the container it contains but has a constant volume. A solid has form and constant volume.
V=nRT/P
Make V explicit in the general for of the gas law: P.V = n.R.T then you get V = (n.R.T) / P
Make V explicit in the general for of the gas law: P.V = n.R.T then you get V = (n.R.T) / P
Make V explicit in the general for of the gas law: P.V = n.R.T then you get V = (n.R.T) / P
(Explanation) this is simply taking the ideal gas law PV=nRT, and dividing by P on both sides to isolate the V, kinda like solving an algebra problem
(Explanation) this is simply taking the ideal gas law PV=nRT, and dividing by P on both sides to isolate the V, kinda like solving an algebra problem
From PV = nRT you solve for n (moles). Thus, n = PV/RT
From PV = nRT you solve for n (moles). Thus, n = PV/RT
From PV = nRT you solve for n (moles). Thus, n = PV/RT
From PV = nRT you solve for n (moles). Thus, n = PV/RT
From PV = nRT you solve for n (moles). Thus, n = PV/RT
From PV = nRT you solve for n (moles). Thus, n = PV/RT