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The equivalent weights of oxidising and ...

The equivalent weights of oxidising and reducing agents can be calculated by the number of electrons gained or lost. The equivalent weight of an oxidising agent is the number of parts by weight of the substance which gains one electron. Thus, it is equal to the molecular weight of the substance divided by the number of electrons gained in the balanced chemical equation. Similarly, equivalent weight of a reducing agent is equal to the molecular weight divided by the number of electrons lost as represented in the balanced chemical equation
The equivalent weght of `As_(2),S_3` in the following reaction
`As_(2)S_(3) + H^(+) + NO_(3)^(-) rarr NO + H_(2)O + AsO_(4)^(3-) + SO_(4)^(2-)` is related to its molecular weight as

A

`(M)/(2)`

B

`(M)/(4)`

C

`(M)/(24)`

D

`(M)/(28)`

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The correct Answer is:
D
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The equivalent weights of oxidising and reducing agents can be calculated by the number of electrons gained or lost. The equivalent weight of an oxidising agent is the number of parts by weight of the substance which gains one electron. Thus, it is equal to the molecular weight of the substance divided by the number of electrons gained in the balanced chemical equation. Similarly, equivalent weight of a reducing agent is equal to the molecular weight divided by the number of electrons lost as represented in the balanced chemical equation Equivalent weight of MnO_(4)^(-) in acidic, basic and neutral media are in the ratio of

The equivalent weights of oxidising and reducing agents can be calculated by the number of electrons gained or lost. The equivalent weight of an oxidising agent is the number of parts by weight of the substance which gains one electron. Thus, it is equal to the molecular weight of the substance divided by the number of electrons gained in the balanced chemical equation. Similarly, equivalent weight of a reducing agent is equal to the molecular weight divided by the number of electrons lost as represented in the balanced chemical equation The equivalent weight of barium in BaCrO_4 used as an oxidising agent in acidic medium is (At, wt, of Ba - 137.34)

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NARENDRA AWASTHI-STOICHIOMETRY-Level 1 (Q.121 To Q.150)
  1. In Fe(II) -MnO(4)^(-) "tirtration" HNO(3) is not used beacause:

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  2. Which species are oxidised and reduced in the reaction? FeC(2)O(4)+K...

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  3. In which of the following reaction, H(2)O(2) is acting as a reducing a...

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  4. Following reaction describes the rusting of iron 4Fe+3O(2)rarr4Fe^(3+)...

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  5. Which of the following reactions does not represent the aldol condensa...

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  6. Which of the following is redox reaction

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  7. Which of the following is redox reaction

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  8. Balance the following chemcial reaction. MnO(4)^(-)+SO(3)^(2-)+H^(+)...

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  9. In the chemical reaction, K(2)Cr(2)O(7)+xH(2)SO(4)+ySO(2)rarrK(2)SO(...

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  10. In SOCl(2) and SO(2)Cl(2)

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  11. Balance the followings equations and choose the quantity which is the ...

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  12. If 0.1 mole H(3)PO(x) is completely neutralised by 5.6g KOH then selec...

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  13. When potassium permanganate is titrated against ferrous ammonium sulph...

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  14. Equivalent mass of FeS2 in the half reaction, FeS2 + O2 rarr Fe2 O3+SO...

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  15. The equaivalent mass of HCl in the given reaction is : K2Cr2O7 + 14HCl...

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  16. Equivalent weight of H(3)PO(2) when it disproportionates into PH(3) an...

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  17. The equivalent weights of oxidising and reducing agents can be calcula...

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  18. Sulphur forms the chlorides S2Cl2 and SCl2. The equivalent mass of sul...

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  19. The equivalent mass of an element is 4. Its chloride has vapour densit...

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  20. 6 xx 10^(-3) mole K2 Cr2 O7 reacts completely with 9 xx 10^(-3) mole X...

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