3.2 mol XeF_7 * 7mol F/1mol XeF_7 = 22.4 mol F
Easy as pie.
First, calculate the molar mass of xenon hexafluoride (XeF6). Xenon has a molar mass of 131.29 g/mol and each fluorine atom has a molar mass of 19.00 g/mol. Therefore, the molar mass of XeF6 is 131.29 + (6 * 19.00) = 209.29 g/mol. Next, calculate the number of moles in 3.2 grams of XeF6 by dividing the given mass by the molar mass: 3.2 g / 209.29 g/mol ≈ 0.0153 moles of XeF6. This means that there are about 0.0153 moles of fluorine atoms in 3.2 grams of xenon hexafluoride.
There are 19.2 moles of fluorine in 3.2 moles of xenon hexafluoride. Xenon hexafluoride has 6 fluorine atoms in each molecule, so you multiply the moles of xenon hexafluoride by 6 to find the moles of fluorine.
The formula for xenon hexafluoride is XeF6. It consists of one xenon atom bonded to six fluorine atoms.
The chemical formula for xenon hexafluoride is XeF6. It consists of one xenon atom bonded to six fluorine atoms.
The chemical formula for xenon hexafluoride is XeF6. It contains one xenon atom bonded to six fluorine atoms.
There is 1 mole of xenon hexafluoride in 1 mole of xenon hexafluoride because the mole ratio is 1:1 for a single compound.
There are 19.2 moles of fluorine in 3.2 moles of xenon hexafluoride. Xenon hexafluoride has 6 fluorine atoms in each molecule, so you multiply the moles of xenon hexafluoride by 6 to find the moles of fluorine.
The formula for xenon hexafluoride is XeF6. It consists of one xenon atom bonded to six fluorine atoms.
The chemical formula for xenon hexafluoride is XeF6. It consists of one xenon atom bonded to six fluorine atoms.
The chemical formula for xenon hexafluoride is XeF6. It contains one xenon atom bonded to six fluorine atoms.
There is 1 mole of xenon hexafluoride in 1 mole of xenon hexafluoride because the mole ratio is 1:1 for a single compound.
The chemical formula for xenon hexafluoride is XeF6. It consists of one xenon atom bonded to six fluorine atoms.
When you mix fluorine with xenon, the fluorine can react with xenon to form xenon fluorides, such as xenon tetrafluoride (XeF4) or xenon hexafluoride (XeF6). These xenon fluorides are generally unstable and highly reactive compounds.
Hexafluoride compounds are formed when oxygen combines with either argon or xenon in the presence of fluorine. These compounds have the chemical formula XeF6 for xenon and ArF6 for argon.
When xenon and fluorine are combined, their product is xenon hexafluoride (XeF6).
Yes, xenon and fluorine can combine to form compounds such as xenon hexafluoride (XeF6) or xenon tetrafluoride (XeF4), among others. These compounds are typically formed under specific reaction conditions in the presence of excess fluorine.
Xenon has a hexafluoride, which is xenon hexafluoride (XeF6). Argon does not have a stable hexafluoride compound.
Xenon commonly combines with fluorine to form xenon tetrafluoride (XeF4) and xenon hexafluoride (XeF6), as well as oxygen to form xenon tetroxide (XeO4).