A current of 3.6A is a passed for 6 hrs ...

A current of `3.6A` is a passed for 6 hrs between Pt electrodes in `0.5L` of `2M` solution of `Ni(NO_(3))_(2)`. What will be the molarity of solution at the end of electrolysis?

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A current of 3.7 amper is passed for 6 hre between Pt electrodes in 0.5 litre, 2M solution of Ni(NO_(3))_(2). What will be the molarity of solution at the end of electrolysis?

`1.0` M

3 M

`1.17` M

2 M

A current of 3.7 A is passed for six hours between Ni electrodes in 0.5 L of 2M solution of Ni(NO_(3))_(2) . The molarity of solution at the end of electrolysis will ___________.

remain the same

increases

decreases

first increases then decreases

A current of 9.65 A is passed for 3 hours between nickel electrodes in 0.5 L of a 2 M solution of Ni(NO_3)_2. The molarity of the solution after electrolysis would be

0.46 M

0.625 M

0.92 M

1.25 M

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A current of `3.6A` is a passed for 6 hrs between Pt electrodes in `0.5L` of `2M` solution of `Ni(NO_(3))_(2)`. What will be the molarity of solution at the end of electrolysis?

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A current of 3.7 amper is passed for 6 hre between Pt electrodes in 0.5 litre, 2M solution of Ni(NO_(3))_(2). What will be the molarity of solution at the end of electrolysis?

A current of 3.7 A is passed for six hours between Ni electrodes in 0.5 L of 2M solution of Ni(NO_(3))_(2) . The molarity of solution at the end of electrolysis will ___________.

A current of 9.65 A is passed for 3 hours between nickel electrodes in 0.5 L of a 2 M solution of Ni(NO_3)_2. The molarity of the solution after electrolysis would be

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MOTION-CLASSROOM PROBLEMS -Electrochemistry