Calculate the amount of heat evolved during the complete combustion of `100 ml` of liquid benzene from the following data. Predict your answer as `(Delta H)/(100)` ( in KJ/mol). (i) `18 gm` of graphite on complete combustion evolve 585 KJ heat (ii) 15540 KJ heat is required to dissociate all the molecules of 1 litre water into `H_(2)` and `O_(2)`. (iii) The heat of formation of liquid benzene is 48 kJ/mol (iv) Density of `C_(6)H_(6)(l)=0.87 gm//ml`

Calculate the amount of heat evolved during the complete combustion of

1.	Calculate the amount of heat evolved during the complete combustion of `100 ml` of liquid benzene from the following data. Predict your answer as `(Delta H)/(100)` ( in KJ/mol). (i) `18 gm` of graphite on complete combustion evolve 585 KJ heat (ii) 15540 KJ heat is required to dissociate all the molecules of 1 litre water into `H_(2)` and `O_(2)`. (iii) The heat of formation of liquid benzene is 48 kJ/mol (iv) Density of `C_(6)H_(6)(l)=0.87 gm//ml`
Answer» Correct Answer - 36 KJ `(i)" "C(s) + O_(2)(g) rarr CO_(2)(g) , DeltaH_(f)^(0) = -390KJ//mol, " " DeltaH_(f)^(0) = (585)/(18)xx12` `(ii) " " H_(2)(g)+(1)/(2)O_(2)(g) rarr H_(2)(l) , DeltaH_(f)^(0) =-280 KJ//mol ," " Delta H_(f)^(0) = (15540)/(55.5)` `(iii)" " C_(6)H_(6)(l) + (15)/(2)O_(2)(g) rarr 6CO_(2)(g) + 3H_(2)O(l) ," " DeltaH_(f)^(0) = -48` `therefore" "DeltaH^(0) = [6(-390) + 3(-280)] - 48 = -3228 KJ//mol` `" "` Mass of benzene is `= 0.87 xx 100 = 87g` `therefore" "` Heat evolved from `87` gm benzene `=3600KJ` `" "` Hence , `(DeltaH)/(100)=36KJ.`

Discussion

No Comment Found

Related InterviewSolutions

`S_(H_(2(g)))^(0) = 130.6 J K^(-1) mol^(-1)`, `S_(H_(2)O_((l)))^(0)= 69.9 J K^(-1)mol^(-1)` `S_(O_(2(g)))^(0) = 205 J K^(-1)mol^(-1)`, then the absolute entropy change of `H_(2_((g))) + (1)/(2)O_(2_((g))) rarr H_(2)O_((l))` isA. `-163.2 J mol^(-1) K^(-1)`B. `+163.2 J mol^(-1)K^(-1)`C. `-303 J mol^(-1) K^(-1)`D. `+303 J mol^(-1) K^(-1)`
An intimate mixture of ferric oxide , `Fe_(2)O_(3)`, and aluminium, Al, is used in solid fuel rockets. Calculate the fuel value per gram and fuel value per cc. of the mixture . Heats of formation and densities are as follows `:-` `DeltaH_(f) (Al_(2)O_(3))= 399kcal//mol`, `DeltaH_(f)(Fe_(2)O_(3))= 199kcal//mol` Density of `Fe_(2)O_(3)= 5.2 g//cc`,Density of Al `= 2.7 g //cc.`
Calculate the entropy change for the conversion of2 moles of liquid water at 373K to vapours , if `Delta_(vap)` H is `37.3kJ mol^(-1)`.
Calculae the entropy change fo n-hexane when one mole of it evaporates at 341.7 K `(Delta_(vap) H = 29.0 kJ mol^(-1))`
An ideal gas has volume`V_(0)` at . `27^(@)C` It is heated at constant pressure so that its volume becomes . `2V_(0).`The final temperature isA. `54^(@)C`B. `32.6^(@)C`C. `327^(@)C`D. 150 k
What kind of system does a water filled bucket represents?
When a polyatomic gas undergoes an adiabatic process, its tempertaure and volume are related by the equation `TV^(n) =` constant, the value of `n`will beA. `1.33`B. `0.33`C. `2.33`D. `1`
A monoatomic gas undergoes adiabatic process. Its volume and temperature are related as `TV^(P)` = constant. The value of p will be `{:((1),1.33,(2),1.67),((3),0.67,(4),0.33):}`
For a given reaction `Delta`G obtained was having positive sign convention. State whether the reaction was spontaneous or non-spontaneous.
A gas is contained in a metallic cylinder fitted with a piston.The piston is suddenly moved in to compress the gas and is maintained at this position. As time passes the pressure of the gas in the cylinderA. The pressure decreasesB. The pressure increasesC. The pressure remains the sameD. The pressure may increase or decrease depending upon the nature of the gas

Discussion

No Comment Found

Related InterviewSolutions

Reply to Comment