Answer : The option (C) is not an oxidation-reduction reaction.
Explanation :
A : [tex]XeF_6(s)\righatrrow XeF_4(s)+F_2(g)[/tex]
This is an oxidation-reduction reaction. In this reaction, the oxidation state of 'Xe' changes from (+6) to (+4) and the oxidation state of 'F ' changes from (-1) to (0). That means 'Xe' shows reduction and 'F' shows oxidation in the reaction.
B : [tex]2Cs(s)+I_2(g)\righatrrow 2Csl(s)[/tex]
This is an oxidation-reduction reaction. In this reaction, the oxidation state of 'Cs' changes from (0) to (+1) and the oxidation state of 'I' changes from (0) to (-1). That means 'I' shows reduction and 'Cs' shows oxidation in the reaction.
D : [tex]Zn(s)+2AgNo_3(aq)\rightarrow Zn(NO_3)_2(aq)+Ag(s)[/tex]
This is an oxidation-reduction reaction. In this reaction, the oxidation state of 'Zn' changes from (0) to (+2) and the oxidation state of 'Ag' changes from (+1) to (0). That means 'Ag' shows reduction and 'Zn' shows oxidation in the reaction.
C : [tex]2H_2SO_4(aq)+2Ba(OH)_2(aq)\rightarrow 2BaSO_4(s)+4H_2O(I)[/tex]
This is not an oxidation-reduction reaction. In this reaction, the oxidation states are not changes.
Hence, the option (C) is not an oxidation-reduction reaction.
Answer:
B.) 2Cs(s) + I2(g) -----> 2CsI(s)
Explanation:
edge 2021
