HNO(2) acts as...

`HNO_(2)` acts as

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oxidising agent

reducing agent

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In the reaction :- C+4HNO_(3)rarrCO_(2)+2H_(2)O+4NO_(2) HNO_(3) acts as :-

Assertion (A): HNO_(3) acts only as an oxidising agent, while HNO_(2) acts both as an oxidising agnet and a reducing agent. Reason (R ): The oxidation number of N in HNO_(3) is mximum.

Assertion : In the reaction H_2 S + HNO_3 to NO + S + H_2 O, HNO_3 acts as an oxidising agent. Reason : HNO_3 gets oxidised to NO.

Assertion :- Nitrous acid (HNO_(2)) may act as an oxidising agent as well as a reducing agent. Reason :- The oxidation number of Nitrogen remains same in all the compounds.

Assertion : HNO_(2) can act both as a reducing agent and an oxidising agent. Reason : In HNO_(2) , oxidation state of nitrogen is +3 which can change from -3 to +5.

represents the distillation of mixture of liquid A and liquid B which gives both of pure liquid A and B . Represents the azeotropic mixture of HNO_(3) and H_(2)O which distillation gives an azeotropic mixture and either of pure liquid. We cannot separate both the pure liquid, i.e., H_(2)O and HNO_(3) . What is the result of distilling a mixture of 80% HNO_(3) and 20%H_(2)O ? (a)Pure H_(2)O and azeotropic mixture can be separated. (b)Pure H_(2)O and pure HNO_(3) can be separated. (c)Pure HNO_(3) and azeotropic mixture can be separated. (d)None of these

represents the distillation of mixture of liquid A and liquid B which gives both of pure liquid A and B . Represents the azeotropic mixture of HNO_(3) and H_(2)O which distillation gives an azeotropic mixture and either of pure liquid. We cannot separate both the pure liquid, i.e., H_(2)O and HNO_(3) . What is the result of distilling a mixture of 50% HNO_(3) and 50%H(2)O ? a.Pure water and azeotropic mixtue can be separated. b.Pure H_(2)O and pure HNO_(3) can be separated. c.Pure HNO_(3) and azeotropic mixture can be separated. d.None of these

What is the product when C_(6)H_(5)CH_(2)NH_(2) reacts with HNO_(3) ?

Concentrated HNO_(3) reacts with iodine to give:

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