![Calculate the volume of gases liberated at anode and cathode at NTP from the electrolysis of Na(2)SO(4)(aq.) solution by a current of 2 ampere passed for 10 minute. Calculate the volume of gases liberated at anode and cathode at NTP from the electrolysis of Na(2)SO(4)(aq.) solution by a current of 2 ampere passed for 10 minute.](https://d10lpgp6xz60nq.cloudfront.net/ss/web/326063.jpg)
Calculate the volume of gases liberated at anode and cathode at NTP from the electrolysis of Na(2)SO(4)(aq.) solution by a current of 2 ampere passed for 10 minute.
![molar gas volume Avogadro's Law moles and mass calculations gcse chemistry calculations igcse KS4 science A level GCE AS A2 O Level practice questions exercises molar gas volume Avogadro's Law moles and mass calculations gcse chemistry calculations igcse KS4 science A level GCE AS A2 O Level practice questions exercises](https://www.docbrown.info/page04/4_73calcs/molegasvol-re.gif)
molar gas volume Avogadro's Law moles and mass calculations gcse chemistry calculations igcse KS4 science A level GCE AS A2 O Level practice questions exercises
calculate volume of the gases liberated at STP if 1 l of 0.2 molar solution of CuSO4 is electrolysed by 5.79 A current for 10000 seconds
Calculate the volume of the gas liberated at anode at NTP from electrolysis of CuSO4 solution by current of 2 A passed for 10 min.
![SOLVED:Use molar volume to calculate each of the following at STP: a. the volume, in liters, of 6.40 g of O2 gas b. the number of grams of H2 in 1620 mL SOLVED:Use molar volume to calculate each of the following at STP: a. the volume, in liters, of 6.40 g of O2 gas b. the number of grams of H2 in 1620 mL](https://cdn.numerade.com/previews/fcdc991f-058b-47dd-844b-529d1abbd9c6_large.jpg)
SOLVED:Use molar volume to calculate each of the following at STP: a. the volume, in liters, of 6.40 g of O2 gas b. the number of grams of H2 in 1620 mL
![SOLVED:Calculate the volume of each gas sample at STP. (a) 48.9 g He (b) 45.2 g Xe (c) 48.2 mg Cl2 (d) 3.83 kg SO2 SOLVED:Calculate the volume of each gas sample at STP. (a) 48.9 g He (b) 45.2 g Xe (c) 48.2 mg Cl2 (d) 3.83 kg SO2](https://cdn.numerade.com/previews/949034d2-063d-472e-ba68-ba0a7bb9a6dd_large.jpg)