Predict whether, `Ag^+ can o-x-idise Pb to Pb^(2+)` under standard state conditions. `E_(Ag)^@=0.799 V and E_(Pb)^@=-0.126 V`

Predict whether, Cu^(2+) can oxidize Cd to Cd^(2+) under standard state conditions. E_(Cu)^@=0.337 V, E_(Cd)^@=-0.403V

Predict whether the following reactions occur under standard state conditions: Oxidation of Ag_((s)) by Cl_(2(g)) E_(Ag)^@ = 0.8V'E_(C12)^@ = 1.36V

Predict whether the following reactions would occur spontaneously under standard state conditions: 2 Ag_((s))+Ni^(2o+)(aq) rarr 2Ag^(o+)(aq)+Ni_((s))

Predict whether the following reactions would occur spontaneously under standard state conditions: 2 Br_((s))^(Theta)+Sn^(2o+)(aq) rarrBr_2(l)+Sn_((s))

Predict whether the following reactions would occur spontaneously under standard state conditions: Ca_((s))+Cd^(2o+)(aq) rarr Ca^(2o+)+(aq)+Ca_((s))

Calculate the entropy change in surroundings when 1.0 mol of H_2O (l) is formed under standard conditions. Given Delta_fH^@ = -286 kJ mol^-1

Which of the following Species are reducing agents? Arrange them in order of increasing strength under standard state conditions. The standard potentials are given in parenthesis. K (-2.93V), Br_2(1.09V), Mg(-2.36V), Ce^(3o+)(1.61V), Ti^(2o+)(-0.37V), Ag^(o+)(0.8 V), Ni (-0.23V).

Which species in each of the following pairs is better reducing agent under standard state conditions. E^@ values are, given. Give reasons for your answer :- Hg_(I) (0.86 V) or Ni_(s) (-0.23V)

Which species in each of the following pairs is better reducing agent under standard state conditions. E^@ values are, given. Give reasons for your answer :- K_(s) (-2.93 V) or Mg_(s) (-2.36)

Which species in each of the following pairs is better reducing agent under standard state conditions? E^@ values are given.Give reasons for your answer: Ce_((aq))^(3+) (1.61V) or Ti_((aq))^(2+) (-0.37V)