Viplav Patel
Indian Institute of Technology (IIT), Kanpur
Viplav Patel has created this Calculator and 10+ more calculators!
Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
Akshada Kulkarni has verified this Calculator and 400+ more calculators!

11 Other formulas that you can solve using the same Inputs

Partial pressure of Water Vapour
partial pressure=Pressure of Gas*1.8*Atmospheric Pressure*Temperature Difference/2700 GO
Work done in isothermal process (using pressure)
Work =[R]*Temperature of Gas*ln(Initial Pressure of System/Final Pressure of System) GO
Heat transferred in isothermal process (using pressure)
Heat=[R]*Temperature of Gas*ln(Initial Pressure of System/Final Pressure of System) GO
Work done in isothermal process (using volume)
Work =[R]*Temperature of Gas*ln(Final Volume of System/Initial Volume of System) GO
Heat transferred in isothermal process (using volume)
Heat=[R]*Temperature of Gas*ln(Final Volume of System/Initial Volume of System) GO
Average speed of gases
Average speed of the gas=(sqrt((8*[R]*Temperature of Gas)/(pi*Molar Mass))) GO
Density of Gas when pressure and temperature of gas are given
Density of Gas=Pressure of Gas/(Universal Gas Constant*Temperature of Gas) GO
RMS speed
Root mean square velocity=(sqrt((3*[R]*Temperature of Gas)/Molar Mass)) GO
STP
STP=Volume of Gas*(273/Temperature of Gas)*(Pressure of Gas/100) GO
Molecular Formula
Molecular Formula=Molar Mass/Mass of Empirical Formulas GO
Molar Volume
Molar Volume=(Atomic Weight*Molar Mass)/Density GO

3 Other formulas that calculate the same Output

Density of Gas when pressure and temperature of gas are given
Density of Gas=Pressure of Gas/(Universal Gas Constant*Temperature of Gas) GO
Density of Gas when volume and amount of gaseous substance are given
Density of Gas=Amount of Gaseous Substance in Moles/Volume of Gas GO
Density of gas particle when vapour density is given
Density of Gas=Vapour Density*Density of Hydrogen GO

Density of gas Formula

Density of Gas=(Pressure of Gas*(Molar Mass))/([R]*Temperature of Gas)
ρ=(P*(M))/([R]*T)
More formulas
Focal length of Convex Lens GO
Equivalent Weight GO
Molecular Weight GO
N Factor GO
Volume Strength using Normality GO
Volume Strength using Molarity GO
Molarity Using Volume Strength of Hydrogen Peroxide GO
Normality Using Volume Strength Of Hydrogen Peroxide GO
Titration Of Sodium Hydroxide And Sodium Carbonate(Phenolphthalein) GO
Titration Of Sodium Hydroxide And Sodium Carbonate(Methyl Orange) GO
Titration of Sodium Hydroxide with Sodium Carbonate After Second End Point(using Phenolphthalein) GO
Titration of Sodium Hydroxide with Sodium Carbonate After Second End Point(Methyl Orange) GO
Titration of Sodium Hydroxide With Sodium Bicarbonate After First End Point(phenolphthalein) GO
Titration of Sodium Hydroxide With Sodium Bicarbonate After Second End Point(phenolphthalein) GO
Titration of Sodium Hydroxide With Sodium Bicarbonate After First End Point(Methyl Orange) GO
Titration of Sodium Hydroxide With Sodium Bicarbonate After Second End Point(Methyl Orange) GO
Titration of Sodium Carbonate With Sodium Bicarbonate After First End Point(phenolphthalein) GO
Titration of Sodium Carbonate With Sodium Bicarbonate After Second End Point(phenolphthalein) GO
Titration Of Sodium Carbonate With Sodium Bicarbonate After First End Point for Methyl Orange GO
Titration of Sodium Carbonate With Sodium Bicarbonate After Second End Point for Methyl Orange GO
Relative Atomic Mass GO
Specific Gravity GO
Mass Of The Gas Using Vapour Density GO
Vapour Density of The Gas Using Mass GO
Molarity GO
Number Of Moles Of The Solute Using Molarity GO
Mole Fraction OF The Solute GO
Mole Fraction Of The Solvent GO
Molarity Using Mole Fraction GO
Mole Fraction Using Molarity GO
Molaity Using Mole Fraction GO
Mole Fraction Using Molality GO
Molarity Using Molality GO
Molality Using Molarity GO
Hardness Of Water GO
Percentage Of Chlorine In Bleaching Powder GO
Density of substance when specific gravity is given GO
Absolute density GO
Molar mass of gas when absolute density at STP is given GO
Molar volume of gas when absolute density is given GO
Pressure of gas when gas density is given GO
Temperature of gas when gas density is given GO
Vapour density using density of gas substance GO
Density of gas particle when vapour density is given GO
Density of hydrogen when vapour density is given GO
Molar mass of gas when vapour density is given GO
Molarity of substance GO
Molality GO
Number of moles of solute using molality GO
Mass of solvent using molality GO
Mole fraction of component 1 in a binary solution GO
Mass Percent GO
Mass of solute using mass percent GO
Mass of solution using mass percent GO
Volume percent GO
Volume of solute using volume percent GO
Volume of solution using volume percent GO
Mass/Volume percent GO
Mass of solute using Mass/volume percent GO
Volume of solution using Mass/volume percent GO
Density of solution using molarity of solution GO
Mole fraction of solute in terms of molarity GO
Number of equivalents when molarity and normality is given GO
Mole fraction of solvent when molality is given GO
Density of solution when molarity and molality is given GO
Molarity when molality of solution is given GO
Oxidation number GO
Number of electrons in valence shell GO
Number of electrons left after bonding GO
Valency factor when equivalent weight is given GO
Equivalent weight for acids GO
Acidity when equivalent weight is given GO
Equivalent weight for base GO
Basicity when equivalent weight is given GO
Equivalent weight of oxidising agent GO
Number of moles of electron gained using equivalent weight of oxidising agent GO
Equivalent weight of reducing agent GO
Number of moles of electron lost using equivalent weight of reducing agent GO
Normality when molality and equivalent mass is given GO
Molarity when normality and equivalent mass is given GO
Equivalent mass when molality and normality is given GO
Normality when molarity and acidity is given GO
Normality when molarity and basicity is given GO
Molarity when acidity and normality is given GO
Molarity when basicity and normality is given GO
Acidity when molarity and normality is given GO
Basicity when molarity and normality is given GO
Molarity when normality and number of equivalents is given GO
Normality when molarity and number of equivalents is given GO
Number of equivalents of solute GO
Number of equivalents of solute in terms of valency factor GO
Number of moles of solute in terms of number of equivalents of solute GO
Valency factor in terms of number of equivalents of solute GO
Number of equivalents of solute when normality is given GO
Volume of solution when normality is given GO
Normality in terms of molarity and valency factor GO
Valency factor in terms of molarity and normality GO
Normality of substance 1 at equivalence point GO
Volume of substance 1 at equivalence point GO
Normality of substance 2 at equivalence point GO
Volume of substance 2 at equivalence point GO

What is ideal gas equation?

An ideal gas is defined as a hypothetical gaseous substance whose behavior is independent of attractive and repulsive forces and can be completely described by the ideal gas law. PV=nRT This equation is known as the ideal gas law.

How to Calculate Density of gas?

Density of gas calculator uses Density of Gas=(Pressure of Gas*(Molar Mass))/([R]*Temperature of Gas) to calculate the Density of Gas, The Density of gas formula is defined from ideal gas equation as (Pressure * Molar Mass/(R*Temperature)). Density of Gas and is denoted by ρ symbol.

How to calculate Density of gas using this online calculator? To use this online calculator for Density of gas, enter Pressure of Gas (P), Molar Mass (M) and Temperature of Gas (T) and hit the calculate button. Here is how the Density of gas calculation can be explained with given input values -> 3.793E-5 = (0.215*(0.04401))/([R]*30).

FAQ

What is Density of gas?
The Density of gas formula is defined from ideal gas equation as (Pressure * Molar Mass/(R*Temperature)) and is represented as ρ=(P*(M))/([R]*T) or Density of Gas=(Pressure of Gas*(Molar Mass))/([R]*Temperature of Gas). The pressure of Gas is the force that the gas exerts on the walls of its container, Molar Mass is the mass of a given substance divided by the amount of substance and The temperature of Gas is the measure of hotness or coldness of a gas.
How to calculate Density of gas?
The Density of gas formula is defined from ideal gas equation as (Pressure * Molar Mass/(R*Temperature)) is calculated using Density of Gas=(Pressure of Gas*(Molar Mass))/([R]*Temperature of Gas). To calculate Density of gas, you need Pressure of Gas (P), Molar Mass (M) and Temperature of Gas (T). With our tool, you need to enter the respective value for Pressure of Gas, Molar Mass and Temperature of Gas and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Density of Gas?
In this formula, Density of Gas uses Pressure of Gas, Molar Mass and Temperature of Gas. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Density of Gas=Amount of Gaseous Substance in Moles/Volume of Gas
  • Density of Gas=Pressure of Gas/(Universal Gas Constant*Temperature of Gas)
  • Density of Gas=Vapour Density*Density of Hydrogen
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