Assuming the formation of an ideal solut...

Assuming the formation of an ideal solution, determine the boiling point of a mixture containing 1560 g benzene (molar mass = 78) and 1125 g chlorobenzene (molar mass = 112.5) using the following against an external pressure of 1000 torr.

`90^(@)C`

`100^(@)C`

`110^(@)C`

`120^(@)C`

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

GRAPHICAL INTERPRETATION
GRB PUBLICATION|Exercise E. Surface Chemistry|1 Videos
GRAPHICAL INTERPRETATION
GRB PUBLICATION|Exercise Surface Chemistry|4 Videos
GRAPHICAL INTERPRETATION
GRB PUBLICATION|Exercise D. Liquid Solutions|1 Videos
F-BLOCK ELEMENTS
GRB PUBLICATION|Exercise Subjective type|7 Videos
HYDROCARBON (ALIPHATIC)
GRB PUBLICATION|Exercise Previous years jee questions|28 Videos

Similar Questions

Explore conceptually related problems

Assuming the formation of an ideal solution, determine the boiling point of a mixture containing 1560g benzene (molar mass =78 ) and 1125g chlorobenzene (molar mass =112.5 ) using the following against an external pressure of 1000 Torr.

The following is a table of the vapour pressure of pure benzene and chlorobenzene. Determine the boiling point of a mixture containing 40 mole percent of benzene and 60 mole percent of chlorobenzene at a pressure of 1000 mm Hg.

The molarity of solution containing 15.20 g of urea, (molar mass = 60) dissolved in 150 g of water is

The molality of solution containing 15.20 g of urea ( molar mass = 60 ) dissolved in 150 g of water is ______.

Calculate the boiling point of solution containing 0.456g of camphor (molar mass =152 ) dissolved in 31.4g of acetone (boiling point =56.30^(@)C ), if the molar elevation constant per 100g of acetone is 17.2^(@)C.

Define boiling point. Write the formula to determine molar mass of a solute using freezing point depression method.

The boiling of a solution containing 1.5 g of dichlorobenzene in 100 g of benzene was higher by 0.268^(@)C . Calculate the molar mass of dichlorobenzene ( k_(b) for benzene 2.62 degree/molal)

GRB PUBLICATION-GRAPHICAL INTERPRETATION-Liquid Solutions

The plots of (1)/(x(A)) (on y-axis) (1)/(y(A)) (on x-axis) is linear w...
Text Solution
|
A graph showing variation of osmotic pressure (pi) versus molar concen...
Text Solution
|
Solubility curves of four ionic salts X,Y,Z,W are given below. In whic...
Text Solution
|
Observe the P-T phase diagram for a given substance A. Then melting po...
Text Solution
|
Assuming the formation of an ideal solution, determine the boiling poi...
Text Solution
|
Given P-X curve for a non-ideal liquid mixture (fig). Identify the co...
Text Solution
|
HNO(3) is more volatile than water. If an aqueous solution of HNO(3) ...
Text Solution
|
Graph of ln S^(@) vs (1)/(T) is plotted for two gases A and B [S^(@) r...
Text Solution
|
The phase diagrams for the pure solvent (solid lines) and the solution...
Text Solution
|
What is the normal boiling point of the solution represented by the ph...
Text Solution
|
What is the normal freezing point of the solution represented by the p...
Text Solution
|
This diagram represents the behaviour of a pure solvent upon cooling. ...
Text Solution
|