The equivalent weights of S in `SCl_(2)` and `S_(2)Cl_(2)` are in the ratio

The eqivalent weights of 'S' in SCI_(2) and S_(2)CI_(2) are in the ratio

Sulphur follows law of mutiple proportions to combine with halogens. Calculate the equivalen weight of sulphur when it form SCl_(2) and S_(2)Cl_(2)

The equivalent weight of Bayer.s reagent is

The equivalent mass of Na_(2)S_2O_3 as reductant in the reaction, Na_2S_(2)O_(3)+5H_(2)O+4Cl_(2) rarr 2NaHSO_(4) +8HCl

Equivalent weights of K_(2)Cr_(2)O_(7) in acidic medium is

The equivalent weight of Hypo in the reaction Na_(2)S_(2)O_(3)+Cl_(2)+H_(2)OrarrNa_(2)SO_(4)+2HCl+S is [M=Mol. Wt]

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

The equivalent weight of chlorine molecule in the equation 3Cl_(2)+6NaOH to 5NaCl+NaClO_(3)+3H_(2)O

Bond angles in SCl_(2) and OF_(2) respectively are