Consider the following standard reductio...

Consider the following standard reduction potentials:-
`{:(Fe^(+)+2e^(-)hArrFe,,,E^(@) =- 0.41V),(Ag^(+)+e^(-)hArrAg,,,E^(+)=0.80V),(O_(2)+2H_(2)O+4e^(-)hArr4OH^(-),,,E^(@)=0.40V):}`
What would happens if a block of silver metal is connected to a buried iron pipe via a wire:-

The silver metal would corrode, a current would be produced in the wire, and `O_(2)` would be reduced on the surface of the iron pipe.

The silver metal would corrode, a current would be produced in the wire, and `Fe^(2+)` would be reduced on the surface of the iron pipe.

The iron pipe would corrode, a current would be produced in the wire, and `Ag^(+)` would be reduced on the surface of the silver metal.

The iron pipe would corrode, no current would be produced in the wire, and `O_(2)` would be reduced on the surface of the iron pipe.

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Consider the following standard reduction potentials:- `{:(Fe^(+)+2e^(-)hArrFe,,,E^(@) =- 0.41V),(Ag^(+)+e^(-)hArrAg,,,E^(+)=0.80V),(O_(2)+2H_(2)O+4e^(-)hArr4OH^(-),,,E^(@)=0.40V):}` What would happens if a block of silver metal is connected to a buried iron pipe via a wire:-

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Consider the following standard reduction potentials:-
`{:(Fe^(+)+2e^(-)hArrFe,,,E^(@) =- 0.41V),(Ag^(+)+e^(-)hArrAg,,,E^(+)=0.80V),(O_(2)+2H_(2)O+4e^(-)hArr4OH^(-),,,E^(@)=0.40V):}`
What would happens if a block of silver metal is connected to a buried iron pipe via a wire:-