it depends what type of gas we are taking about. However, a fairly accurate estimation is 89.6 Liters.
A gas is a substance with no definite shape or volume.
It Measured By Grams
the pressure and temperature are held constant. ideal gas law: Pressure * Volume = moles of gas * temperature * gas constant
The volume of a gas is totally dependent on the container it is in, gas fills its container completely by its particles spreading out. The volume of the container is the same as volume of the gas inside the container. gasses are most commonly measured in SI units (Liters, mililiters, .....).
The volume of a gas is subject to change with temperature and pressure.
To calculate the total volume of hydrogen gas produced, you would need to use the ideal gas law equation, PV = nRT. First, find the number of moles of hydrogen gas produced using the stoichiometry of the reaction. Then, use the ideal gas law equation along with the conditions (pressure, volume, and temperature) to find the total volume of hydrogen gas produced.
To find the volume of hydrogen gas produced, we first need to convert the mass of baking soda (645g) to moles. Then, using the balanced chemical equation for the reaction, we can determine the moles of hydrogen gas produced. Finally, using the ideal gas law at STP, we can convert the moles of hydrogen gas to liters.
carbon dioxide
The molecules are further apart, thus the gas is less dense and the volume is greater.
The volume is 50 %.
Carbon dioxide gas is produced when sugar (glucose) reacts with cupric oxide (CuO). This reaction is a decomposition reaction that releases carbon dioxide gas along with water and elemental copper.
an equation showing conservation of mass of reactants and products:2H2O --> 2H2 & O2what is the mass of the oxygen gas produced, from 178.8 g H2O , (using molar masses:178.8 g H2O @ (1mol O2)(@ 32.00 g/mol) / (2molH2O)(18.02g/mol) =your answer (4 sigfigs): 158.8 g O2178.8 g H2O ---> 20.0 H2 & 158.8 O2
Density = Mass/Volume = 10 g/100 mL = 0.1 grams per millilitre.
As the volume of a given gas sample is dependent on its temperature and pressure; to find a volume of any gas which does exist, the temperature and the pressure of the system/vessel should be given directly or could be calculated.
To convert gas volume (liters) to weight (lbs), you need to know the density of the gas. The weight of gas depends on its type (e.g. gasoline, diesel, natural gas). Once you have the density of the gas, you can use the formula: Weight = Volume x Density.
The molar mass of CaCO3 is 100.09 g/mol, and the molar mass of CO2 is 44.01 g/mol. By using stoichiometry, you can calculate that 15.2 grams of CaCO3 would produce 6.51 grams of CO2. Using the ideal gas law, you can then convert the mass of CO2 to volume using its molar volume at STP (22.4 L/mol). The volume of CO2 produced would be around 3.32 liters.
20 grams of water would have the same weight whether it is in the gas state or liquid state, as the mass remains constant. However, the volume occupied by the gas will be greater due to its lower density compared to the liquid state.