Calculate the quantity of electricity that would be required to reduce `12.3g` of nitrobenzene to aniline, if the current efficiency for the process is `50%`. If the potential drop across the cell is 3.0V, how much energy will be consumed?

Calculate the quantity of electricity that would be required to reduce 12.3 g of nitrobenzene to aniline if the current efficiency for process is 50 per cent. If the potential drop across the cell is 3 volts, how much energy will be consumed?

Calculate the quantity of electricity that would be required to reduce 12.3g of nitrobenzene to aniline, if current efficiency is 50% . If the potential drops across the cell is 3.0V, how much energy will be consumed ?

Calculate the quantity of electricity required to reduct 24.6g of nitrobenzene to aniline if the current efficienty is 75% . If the potential drop across the cell is 4.0V , how much energy is consumed (Mw of C_(6)H_(5)NO_(2)=123g mol^(-1))

Calculate the mass of benzene that would be required to produce a current of one ampere (assume current efficiency 50% ) for three hours from the following data : C_(6)H_(6) + (15)/(2)O_(2) rarr 6CO_(2) + 3H_(2)O

The number of coulombs required to reduce 12.3 g of nitrobenzene to aniline is :

How many coulombs are required in order to reduce 12.3 g of nitrobenzene to aniline?

How many coulombs are required in order to reduce 12.3 g of nitrobenzene to niline ?