`DeltaG` for the reaction `:`
`(4)/(3) Al+O_(2)rarr (2)/(3)Al_(2)O_(3)`
is `-772 kJ mol^(-1)` of `O_(2)`.
Calculate the minimum `EMF` in volts required to carry out an electrolysis of `Al_(2)O_(3)`

On the basis of information available from the reaction (4)/(3)Al+O_(2) rarr (2)/(3)Al_(2)O_(3),DeltaG = -827kJ mol^(-1) , the minimum emf required of O_(2) to carry out of the electrolysis of Al_(2)O_(3) is (F=96,500 C mol^(-1))

The Gibbs energy for the decomposition of Al_(2)O_(3) at 500^(@)C is as follows: (2)/(3)Al_(2)O_(3) rarr (4)/(3)Al + O_(2), Delta_(r)G = +966kJ mol^(-1) The potential difference needed for electrolytic reduction of Al_(2)O_(3) at 500^(@)C is at least:

How many coulombs are required to produce 40.0 g of aluminium from molten Al_(2)O_(3) .

How much electricity in terms of Faraday is required to produce 40.0 g of Al from molter Al_(2)O_(3) ?

The Gibbs energy for the decomposition of Al_(2)O_(3) at 500^(@)C is as follows: (2)/(3)Al_(2)O_(3) rarr (4)/(3)Al + O_(2), Delta_(r)G = +966kJ mol^(-1) The potential difference needed for electrolytic reeduction of Al_(2)O_(3) at 500^(@)C is at least:

Incorrect statement in electrolysis of Al_(2)O_(3) by Hall-Heroult process is :

The conjugate base of [Al(H_(2)O)_(3) (OH)_(3) is

Complete the following reactions: (i) C_(2) H_(4) + O_(2) to (ii) 4Al + 3 O_(2) to

Why Al_(2)O_(3) is amphoteric while B_(2)O_(3) is acidic ?

Complete the following equations : Al_(2)O_(3)+NaOHto