Ideal gas equation is derived by connecting Boyles Law. Charles Law and Avogadros Law. In this equation, a constant R is introduced.
Calculate the mass of 740 ml of `O_2` at `125^@C` and 760 mm Hg pressure.

Ideal gas equation is derived by connecting Boyles Law. Charles Law and Avogadros Law. In this equation, a constant R is introduced. What are the value of 'R'?

Ideal gas equation is derived by connecting Boyles Law. Charles Law and Avogadros Law. In this equation, a constant R is introduced. Explain the physical significance.

BY connecting three gas laws like Boyle's law, Charles law and Avogadro's law, we get ideal gas equation Universal gas constant R is there in the ideal gas equation. Calculate the mass of 740 ml of O_2 at 125^@C and 750 mm Hg pressure.

The combination of Boyl's law, Charle's law and Avogadro's law is known as ideal gas equation. But the real gases deviate from ideal behaviour.

By connecting three gas laws like Boyle's law, Charles law and Avogadro's law, we get ideal gas equation Universal gas constant R is there in the ideal gas equation. What are the different value of R with units?

The combination of Boyl's law, Charle's law and Avogadro's law is known as ideal gas equation. But the real gases deviate from ideal behaviour. Name the above equation.

Real gases behave ideally only at certain conditions. Density of a gas was found to be 5.5 g L at 2 bar pressure. Calculate its molar mass. [R = 0.083 bar L mol^-1 K^-1 ] t=250 degree C

An ideal gas is one which obeys gas laws. a) Derive an ideal gas equation

Based on Boyle's law how will you show that at a constant temperature, pressure is directly proportional to the density of a fixed mass of the gas?

Gas laws are relationship between the measurable properties of gases. A definite quantity of an ideal gas is confined in a container of constant volume. When the container is immersed in a bath of melting ice, the pressure of the gas is 800mm of Hg. Find the temperature when the gas pressure is 400mm of Hg.