Hydrogen gas is prepared in the laboratory by reacting dilute HCl with granulated zinc, Following reaction takes place
`Zn+2HClrarrZnCl_(2)+H_(2)`
Calculate the voluem of hydrogen gas liberated at STP when 32.65 g of zinc reacts with HCl. 1 mol of a gas occupies 22.7 L volume at STP, atomic mass of Zn=65 .3u

The volume of hydrogen gas liberated at STP when a current of 5.36 ampere is passed through dil. H_(2)SO_(4) for 5 hours will be

What volume of hydrogen at NTP will be liberated was is 3.25 g of zinc completely dissolve in dilute HCl? (At. mass of Zn=65)

In the reaction Zn(s) + 2H^(+)(aq.) rarr Zn^(2+)(aq.) + H_(2) (g) , how many liters of hydrogen gas measured at STP is produced when 6.54g of Zn is used (Zn = 65.4 u) ?

The volume strength of 0.75 M H_(2)O_(2) solution is : (Assume 1 mole of an ideal gas occupies 22.4L at STP)

An unknown compound A (Mn_(x)O_(y)) composed of manganese and oxygen , has 36.7% oxygen by weight. When 8.7 g of A is heated with HCl it liberates Cl_(2) gas as per the following reaction: Mn_(x)O_(y) +HCl rarr MnCl_(2)+Cl_(2)+H_(2)O (unbalanced) The volume of Cl_(2) gas at STP obtained when 8.7 gm of compound A is heated with excess of HCl , (assume molecular formula and , empirical formula to be same):

Assetion (A): 1 mol H_(2) and N_(2) have same volume at same temperature and pressure. Reason (R ): 1 mol gas at STP occupies 24.4L volume.