(a)
Interpretation:
The boiling point of solution containing
Concept Introduction:
Boiling point is the temperature at which liquid turns into a gas. Example: boiling point of water is
Where,
Boiling point elevation
Where,
M is the molality of the solution
i is van’t Hoff factor
Note:
The boiling point of one kilogram of water will be increase by
(a)
Explanation of Solution
Given that
The addition of one mole of solute particles dissolved in one-kilogram of water will raise the boiling point of solution by
Therefore, the number of moles per kilogram in the solution has to be calculated and have to multiply by
One mole of dissolved sucrose will forms one mole of dissolved particles.
Boiling point increase can be calculated as follows:
Boiling point calculation:
(b)
Interpretation:
The boiling point of solution containing
Concept Introduction:
Boiling point is the temperature at which liquid turns into a gas. Example: boiling point of water is
Where,
Boiling point elevation
Where,
M is the molality of the solution
i is van’t Hoff factor
Note:
The boiling point of one kilogram of water will be increase by
(b)
Explanation of Solution
Given that
The addition of one mole of solute particles dissolved in one-kilogram of water will raise the boiling point of solution by
Therefore, the number of moles per kilogram in the solution has to be calculated and have to multiply by
One mole of dissolved sucrose will forms one mole of dissolved particles.
Boiling point increase can be calculated as follows:
Boiling point calculation:
(c)
Interpretation:
The boiling point of solution containing
Concept Introduction:
Boiling point is the temperature at which liquid turns into a gas. Example: boiling point of water is
Where,
Boiling point elevation
Where,
M is the molality of the solution
i is van’t Hoff factor
Note:
The boiling point of one kilogram of water will be increase by
(c)
Explanation of Solution
Given that
The addition of one mole of solute particles dissolved in one-kilogram of water will raise the boiling point of solution by
Therefore, the number of moles per kilogram in the solution has to be calculated and have to multiply by
One mole of dissolved sucrose will forms one mole of dissolved particles.
Boiling point increase can be calculated as follows:
Boiling point calculation:
(d)
Interpretation:
The boiling point of solution containing
Concept Introduction:
Boiling point is the temperature at which liquid turns into a gas. Example: boiling point of water is
Where,
Boiling point elevation
Where,
M is the molality of the solution
i is van’t Hoff factor
Note:
The boiling point of one kilogram of water will be increase by
(d)
Explanation of Solution
Given that
The addition of one mole of solute particles dissolved in one-kilogram of water will raise the boiling point of solution by
Therefore, the number of moles per kilogram in the solution has to be calculated and have to multiply by
One mole of dissolved sucrose will forms one mole of dissolved particles.
Boiling point increase can be calculated as follows:
Boiling point calculation:
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Chapter 8 Solutions
General, Organic, and Biological Chemistry Seventh Edition
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