The equilibrium `2 Cu^(I)hArr Cu+Cu^(II)`
In aqueous medium at `25^@C` shifts towards the left in the presence of

The equilibrium Cu^(0)+Cu^(||)hArr2Cu^(|) In the aqueous medium at 25^(@)C shifts towards the left in the presence of (1) Cl^(-) (2) CN^(-) (3) SCN^(-) (4) NO_(3)^(-)

The equilibrium Al(OH)_3+OH^(-)hArr [Al(OH)_4]^(-) in aqueous medium shifts towards the left in the presence of :

Cu^(+)ion in aquous medium undergoes

The species which convert Cu^(2+) to Cu^(+)

In a 1.0 L aqueous solution when the reaction 2Ag^(o+)(aq)+Cu(s) hArr Cu^(2+)(aq)+2Ag(s) reaches equilibrium, [Cu^(2+)]=Cu(s) hArr Cu^(2+)(aq)+2Ag(s) reaches equilibrium, [Cu^(2+)]=xM and [Ag^(o+)]=y M . If the volume of solution is doubled by adding water, then at equilibrium:

For the following Assertion and Reason , the correct option is Assertion (A) : When Cu (II) and sulphide ions are mixed , they react together extremely quickly to give a solid . Reason (R) : The equilibrium constant of Cu^(2+) (aq) + S^(2-) (aq) hArr CuS (s) is high because the solubility product is low .

The standard emf for the cell cell reaction Zn + Cu^(2+) rarr Zn^(2+) + Cu is 1.10 volt at 25^@ C . The emf for the cell reaction when 0.1 M Cu^(2+) and 0.1 M ZN^(2+) solutions are used at 25^@ =C is .

The equilibrium Cu^(. .)(aq)+Cu(s) hArr2Cu^(.) established at 20^(@)C corresponds to ([Cu^(. .)])/([Cu^(+)])=2.02xx10^(4+) . The standard potential . E_(Cu^(. . ).Cu)^(0)=0.33 volt at this temperature . What is the standard potential E_(Cu//Cu^(+))^(0) ?

Explain why Cu^(+) ion is not stable in aqueous solutions ?

In an aqueous solution of volume 500 ml when the reaction 2Ag^(+)(aq)+Cu(s) hArr Cu^(2+)(aq)+2Ag(s) reached equilibrium, the [Cu^(2+)] was 'a'M . If 500 ml water is further added, at the equilibrium [Cu^(2+)] will be :