22.4 dm³
Ideal gases are gases with negligible intermolecular forces and molecular volumes. Real gases have intermolecular forces and have definite volumes at room temperature and pressure (RTP).
RTP stands for room temperature (in chemistry)
To find moles when given mass and volume, you need to first calculate the number of moles using the formula: moles = mass (g) / molar mass (g/mol). Then you find the concentration using the formula: moles / volume (L).
Let's calculate this:Water density is: 1g/ml1ml * 1g/ml = 1g of water in 1 ml.Next,Water molecular weight, about: 18g/mol1g * 1mol/18g = 1/18 moles = about 0.056 moles in 1ml (=1g) of water.This can be done in one step as:1ml * 1g/1ml *1mol/18g = 1/18 moles of waterCheers,Me
At RTP the assumed temperature is 293ºK, at STP the assumed temperature is 273ºK. The formula used for this is Pressure x Volume = moles x ideal gas constant x Temperature. So Volume = (moles x ideal gas constant x temperature) / Pressure Assuming Pressure and moles stays constant... Volume at RTP = ( 1 mole x 8.31451 x 293 K ) / ( 101.325 Pa) Volume at RTP = 24.0429 Volume at RTP = 24.0dm^3 Volume at STP = ( 1 mole * 8.31451 * 273 K ) / ( 101.325 Pa) Volume at STP = 22.4017 Volume at STP = 22.4dm^3
At room temperature and pressure (rtp), fluorine is a gas.
find number of moles of it(assume rtp) => 20/24 = ?find molar mass by dividing 226 by ur ans above. compare the molar mass found with the periodic table.
Butane is a gas at rtp (room temperature and pressure)
Well, it ain't, at least not at high pressures.
Hydrogen chloride is a gas at room temperature and pressure.
by RTP packet reflector
RTP is real time protocol
RTP HD was created in 2009.
RTP Madeira was created in 1972.
RTP Internacional was created in 1992.
RTP África was created in 1998.