Advertisements
Advertisements
प्रश्न
The `E_((M^(2+)//M))^Θ` value for copper is positive (+0.34 V). What is possibly the reason for this? (Hint: consider its high ΔaHΘ and low ΔhydHΘ)
Advertisements
उत्तर
For a metal, `E_((M^(2+)//M))^Θ` is related to the sum of the enthalpy changes in the following terms:
\[\ce{M_{(s)} + \Delta_{{a}}H -> M_{(g)}}\] (ΔaH = atomic enthalpy = positive)
\[\ce{M_{(g)} + \Delta_{{i}}H -> M^{2+}_{ (g)}}\] (ΔiH = ionization enthalpy = positive)
\[\ce{M^{2+}_{ (g)} + \Delta_{hyd}H -> M^{2+}_{ (aq)}}\] (ΔhydH = hydration enthalpy = negative)
Copper has high atomic enthalpy and low hydration enthalpy. Hence the value of `E_((Cu^(2+)//Cu))^Θ` is positive. Hence the high energy of transformation of Cu(s) into \[\ce{Cu^{2+}_{ (aq)}}\] is not balanced by its hydration enthalpy.
APPEARS IN
संबंधित प्रश्न
Explain why is Fe3+ more stable than Fe2+?
Give reasons:
Transition metals show variable oxidation states.
Account for the following:
Cu+ ion is unstable in aqueous solution.
Account for the following:
E° value for the Mn3+/Mn2+ couple is much more positive than that for Cr3+/Cr2+.
Which of the 3d series of the transition metals exhibits the largest number of oxidation states and why?
Why is the highest oxidation state of a metal exhibited in its oxide or fluoride only?
Predict which of the following will be coloured in the aqueous solution?
Ti3+, V3+, Cu+, Sc3+, Mn2+, Fe3+ and Co2+. Give reasons for each.
How would you account for the following:
Of the d4 species, Cr2+ is strongly reducing while manganese (III) is strongly oxidising.
Use Hund’s rule to derive the electronic configuration of Ce3+ ion and calculate its magnetic moment on the basis of ‘spin-only’ formula.
Electronic configuration of Mn2+ is ____________.
\[\ce{KMnO4}\] acts as an oxidising agent in acidic medium. The number of moles of \[\ce{KMnO4}\] that will be needed to react with one mole of sulphide ions in acidic solution is ______.
EΘ of Cu is + 0.34V while that of Zn is – 0.76V. Explain.
Match the catalysts given in Column I with the processes given in Column II.
| Column I (Catalyst) | Column II (Process) |
| (i) \[\ce{Ni}\] in the presence of hydrogen | (a) Zieglar Natta catalyst |
| (ii) \[\ce{Cu2C12}\] | (b) Contact process |
| (iii) \[\ce{V2O5}\] | (c) Vegetable oil to ghee |
| (iv) Finely divided iron | (d) Sandmeyer reaction |
| (v) \[\ce{TiCl4 + Al (CH3)3}\] | (e) Haber's Process |
| (f) Decomposition of KCIO3 |
Assertion: The highest oxidation state of osmium is +8.
Reason: Osmium is a 5d-block element.
The complex showing a spin-span magnetic moment of 2.82 B.M. is :-
Which of the following species has maximum magnetic momentum?
A complex in which dsp2 hybridisation takes place is ______.
The number of terminal oxygen atoms present in the product B obtained from the following reactions is:
\[\ce{FeCr2O4 + Na2CO3 + O2 -> A + Fe2O3 + CO2}\]
\[\ce{A + H^+ -> B + H2O + Na^+}\]
Complete the following reaction and justify that it is a disproportionation reaction:
\[\ce{3MnO^{2-}4 + 4H^+ -> \underline{}\underline{}\underline{}\underline{} + \underline{}\underline{}\underline{}\underline{} + 2H2O}\]
What is the oxidation state of chromium in chromate ion and dichromate ion?
