Surprise Me!
Using the Ideal Gas Law- Calculate Pressure, Volume, Temperature, or Quantity of a Gas
2022-04-24
4
Dailymotion
Using the Ideal Gas Law- Calculate Pressure, Volume, Temperature, or Quantity of a Gas
Please enable JavaScript to view the
comments powered by Disqus.
Related Videos
The molar mass of nitrogen gas N2 is 28 g/mol. For 100g of nitrogen, calculate the number of moles, the volume occupied at room temperature 20 degree celsius and pressure of 1.01×10^5 pa
A sample of a gas contains 3×10^24 atoms. Calculate the volume of the gas at a temperature of 300k and a pressure of 120 kPa
Calculate the volume occupied by a gram mole of a gas at 0 zero degree centigrade and a pressure of 1.0 atmosphere
Determine the average value of the kinetic energy of the particles of an ideal gas at 10 degree centigrade and 40 degree centigrade, what is the kinetic energy per mole of an ideal gas at these temperatures
A balloon contains 0.04 m3 of air at a pressure of 120kPa. Calculate the pressure required to reduce its volume to 0.025 m3 at constant temperature.
Calculate the root mean square speed of hydrogen molecules at 0 degree centigrade and 1 atm pressure. Assuming hydrogen to be an ideal gas. The density of hydrogen is 8.99×10^-2 kg/m3
Molar Volume- Using Avogadro's Law to Calculate the Quantity or Volume of a Gas -
Gay-Lussac's Law- Gas Pressure and Temperature Relationship -
Charles' Law- Gas Volume and Temperature Relationship
Boyle's Law- Gas Pressure and Volume Relationship -
