Molar mass of P4O10,
MM = 4*MM(P) + 10*MM(O)
= 4*30.97 + 10*16.0
= 123.88 + 160
= 283.88 g/mol
Complete the table below for calculating the molar mass of the compound tetraphosphorus decaoxide.
T om II Complete the table below for calculating the molecular weight of the compound tetraphosphorus decaoxide, P4010- Atom W eight in compound Atomic Weight amulatom x amu/atom x #Atoms atoms atoms amu amu molecular weight tetraphosphorus decaoxide = amu
Complete the table below for calculating the molar mass of the compound disulfur decafluoride. Molar mass disulfur decafluoride =
Complete the table below for calculating the molar mass of the compound phosphorus pentachloride. Molar mass of element Moles Mass in one mole of phosphorus pentachloride P D g /mol mol - g/mol mol Molar mass phosphorus pentachloride - g/mol
Complete the table below for calculating the molar mass of the compound sulfur trioxide. Molar mass of element M ass in one mole of sulfur trioxide g/mol * * Moles mol mol g/mol Molar mass sulfur trioxide = g/mol
how many molecules of tetraphosphorus decaoxide are present in 4.31 moles of this compound ? and how many moles of tetraphosphorus decaoxide are present in 1.07x10^22 molecules of this compound ?
a. How many molecules of tetraphosphorus decaoxide are present in 2.96 moles of this compound? 1783x10^23 molecules b. How many moles of tetraphosphorus decaoxide are present in 4.03 x 10" molecules of this compound? moles
Complete the table below for calculating the molar mass of the ionic compound iron(III) fluoride. Formula Molar mass of ion Number of ions Mass of ion in one mole of iron(III) fluoride Cation Fe3+ g/mol x mol Anion F g /mol mol - Molar mass iron(III) fluoride - g/mol
Strike anywhere matches contain the compound tetraphosphorus trisulfide, which burns to form tetraphosphorus decaoxide and sulfur dioxide gas. How many milliliters of sulfur dioxide, measured at 716 torr and 25.0°C, can be produced from burning 0.226 g of tetraphosphorus trisulfide?
We were unable to transcribe this image2. Complete the table below for the outlet stream and show your working: Compound Molar mass(kg/kmol) Mass flow rate (kg/h) Mole flow rate (kmol/h) 02 CO2 CO H20 Total 2. Complete the table below for the outlet stream and show your working: Compound Molar mass(kg/kmol) Mass flow rate (kg/h) Mole flow rate (kmol/h) 02 CO2 CO H20 Total
. Tetraphosphorus decaoxide (P4010) reacts with H2O to form H2PO4. The balanced equation for this reaction is shown in Equation 11. P4010(s) + 6H2O(l) + 4H3PO4(4) (Eq. 11) Calculate the mass of H3PO4 that could possibly be produced by the reaction of 300 g of P4010 with 100 g of H2O. ning conner(IT)