When 2.56 g of sulphur is dissolved in 100 g of `CS_(2)`, the freezing point of the solution gets lowerd by 0.383 K. Calculate the formula of sulphur `(S_(x))`. [Given `K_(f)` for `CS_(2)=3.83` "K kg mol"^(-1)`], [Atomic mass of sulphur=32g `mol^(-1)`]

When 2.56 g of sulphur is dissolved in 100 g of `CS_(2)`, the freezing

1.	When 2.56 g of sulphur is dissolved in 100 g of `CS_(2)`, the freezing point of the solution gets lowerd by 0.383 K. Calculate the formula of sulphur `(S_(x))`. [Given `K_(f)` for `CS_(2)=3.83` "K kg mol"^(-1)`], [Atomic mass of sulphur=32g `mol^(-1)`]
Answer» Calculation of molar mass of sulphur `(S_(x))` `M_(B)-(K_(f)xxW_(B))/(DeltaT_(f)xxW_(A))` Mass of sulphur `(W_(B))=2.56g`. Mass of `CS_(2)(W_(A))=100g=0.1 kg` Molal depression constant `(K_(f))=3.83 K kg mol^(-1)` Derssion in freezing point `(DeltaT_(f))=0.383 K` `M_(B)=((3.83 K kg mol^(-1))xx(2.56g))/((0.383K)xx(0.1 kg))=256 mol^(-1)` Calculate of mlecular fromula of sulphr Gram atomic mass of sulphur= `32 g mol^(-1)` In `S_(x),xxx(32 g mol^(-1))=256 g mol^(-1)` `x=((256 g mol^(-1)))/((32 g mol^(-1)))=8` Molexular formula of sulphr is `S_(8)`.

Discussion

No Comment Found

Related InterviewSolutions

Define Solutions.
At `27^(@)C`,3.92 gm `H_(2)SO_(4)` is present in 250 ml solution. The osmotic pressure of this solution is 1.5 atm. If the osmotic pressure of solution of NaOH is 2 atm at same temperature, then concentration of NaOH solution isA. 0.32 MB. 12.183 MC. `72.3 gm//lit`D. 1 M `Na_(2)SO_(4)`
If K_(3)[Fe(CN)_(6)]` is completely ionised in a solution, what is the number of paritcles forms when one molecule is completely ionised.
29.2% (W/W) HCI stock solution has a density of 1.25 g `mL^(-1)`. The molecular mass of HCI is 36.5 g `mol^(-1)` Calculate the volume (mL) of stock solution required to prepare 200 mL of 0.4 M HCI
A compound `H_(2)X` with molar mass of `80 g` is dissolved in a solvent having density of `0.4 g mL^(-1)`. Assuming no change in volume upon dissolution, the molality of a `3.2` molar solution isA. `9`B. `6`C. `5`D. `8`
A compound `MX_(2)` with molar mass of 80 g is dissolved in a solvent having density 0.4 g `mL^(-1)`. Assuming that there is no change in volume upon dissociation, what is the molality of a 3.2 molar solution ?
The solubility of a solute in a solvent (that is, the extent of the mixing of the solute and solvent species) depends onA. the natural tendency for the solute and solvent species to mixB. the natural tendency for a system to have the lowest energy possibleC. a balance between (1) and (2)D. neither (1) and (2)
Maximum amount of a solid aolute that can be dissolved in a specified amount of a given liquid solvent does not depend upon………..A. temperatureB. nature of soluteC. pressureD. nature of solvent
Solubility of a substance is its maximum amount that can be dissolved in a specified amount of solvent. It depends upon (i)nature of solute , (ii)nature of solvent , (iii)temperature , (iv)pressureA. only (i),(ii) and (iii)B. only (i), (iii) and (iv)C. only (i) and (iv)D. (i),(ii),(iii) and (iv)
A complex is represented as `CoCl_(3) . XNH_(3)`. Its `0.1` molal solution in aqueous solution shows `Delta T_(f) = 0.558^(circ). (K_(f)` for `H_(2)O` is `1.86 K "molality"^(-1))` Assuming `100%` ionisation of complex and co-ordination number of `Co` as six, calculate formula of complex.

When 2.56 g of sulphur is dissolved in 100 g of `CS_(2)`, the freezing point of the solution gets lowerd by 0.383 K. Calculate the formula of sulphur `(S_(x))`. [Given `K_(f)` for `CS_(2)=3.83` "K kg mol"^(-1)`], [Atomic mass of sulphur=32g `mol^(-1)`]

Discussion

No Comment Found

Related InterviewSolutions

Reply to Comment