present i mol of ammonia . . . S O < S O < S O < S O - - - - .
Fe C O Fe CO Oxidi g agent → = + sin ( ) 11th Std Chemistry 11th Std Chemistry - - - - . The mass of one mole of carbon . No, of moles of oxygen g/ g . moles of oxygen No.
of moles of sulphur dioxide g / g . moles of sulphur dioxide Ratio between the no. of molecules . : .
: . AgNO + KCl → KNO + AgCl mL of . % solution contains . g of AgNO No.
of moles of AgNO3 present in mL of . % AgNO solution Mass / Molar mass . / . moles Similarly, No of moles of KCl present in mL of .
% KCl solution . / . . moles So total amount of AgCl formed is .
moles (based on the stoichiometry) Amount of AgCl present in . moles of AgCl no. of moles x molar mass . x .
= . g . No. of moles of a gas that occupies a volume of .
mL at room temperature and pressure ( C and atm pressure) . × - L / . Lmol - . moles We know that, Molar mass = Mass / no.
of moles . g / . mol = g mol - 11th Std Chemistry 11th Std Chemistry - - - - . No.
of moles of carbon present in g of C- = Mass / Molar mass = / = . moles = . × . × carbon atoms.
No. of moles in g of methane = / = . moles = . × .
× carbon atoms. No. of moles in . g of ethane = .