Boiling Point: Difference between revisions
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''' | '''Claimed for editing: Shreenu Sivakumar''' | ||
==The Main Idea== | ==The Main Idea== | ||
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===A Mathematical Model=== | ===A Mathematical Model=== | ||
There are several equations that relate to boiling point, including the Clausius–Clapeyron equation and the boiling point elevation equation. | There are several equations that relate to boiling point, including the Clausius–Clapeyron equation and the boiling point elevation equation. | ||
'''Clausius-Clapeyron Equation''' | '''Clausius-Clapeyron Equation''' | ||
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This equation should be used when the vapor pressure and heat of vaporization for the liquid are known for a specific temperature and you are trying to calculate the boiling point. | This equation should be used when the vapor pressure and heat of vaporization for the liquid are known for a specific temperature and you are trying to calculate the boiling point. | ||
[[File:ClausiusClapeyron.png]] | |||
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'''Boiling Point Elevation Equation''' | '''Boiling Point Elevation Equation''' | ||
This equation accounts for a solution's boiling point being higher than just the solvent's boiling point. This equation should be used when The equation is: | |||
'''ΔT<sub>b</sub> = K<sub>b</sub>· b<sub>B</sub>''' | |||
''The constants in the equation can be defined as:'' | |||
'''ΔT<sub>b</sub>''' = boiling point elevation, which is equal to T<sub>b, solution</sub> - T<sub>b, solvent </sub> | |||
'''K<sub>b</sub>''' = [[Ebullioscopic constant]] | |||
'''b<sub>B</sub>''' = Molality of the solution, b<sub>B</sub> = b<sub>solute</sub> · i | |||
===A Computational Model=== | ===A Computational Model=== | ||
Creating a computational model for this equation | Creating a computational model for this equation would first include initializing the constants below: | ||
K = | K<sub>b</sub> = | ||
b<sub>B</sub> = b<sub>solute</sub> · i | |||
i = | |||
b<sub>solute</sub> = | |||
From here the equation can be used: | |||
'''ΔT<sub>b</sub> = K<sub>b</sub>· b<sub>B</sub>''' | |||
==Examples== | ==Examples== | ||
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==Connectedness== | ==Connectedness== | ||
Boiling point in itself is very important in many every day processes | Boiling point in itself is very important in many every day processes. It is a very important property that often helps to solve many problems about a system, especially in chemical engineering. | ||
One universal use for boiling point elevation is in cooking. Adding a solute such as salt to water that you are trying to boil will cause it to be hotter than it would be otherwise when the boiling point has not been elevated. | One universal use for boiling point elevation is in cooking. Adding a solute such as salt to water that you are trying to boil will cause it to be hotter than it would be otherwise when the boiling point has not been elevated. | ||
A large amount of solute would be necessary to acquire an appreciable increase, however there is a very small increase no matter how much you use. Boiling point elevation is also used in sugar refining; at some points during the process the syrup is boiled and the temperature at which it boils depends on the concentration of sugar at that time. | A large amount of solute would be necessary to acquire an appreciable increase, however there is a very small increase no matter how much you use. Boiling point elevation is also used in sugar refining; at some points during the process the syrup is boiled and the temperature at which it boils depends on the concentration of sugar at that time. | ||
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===External links=== | ===External links=== | ||
[https://en.wikipedia.org/wiki/Boiling_point] | |||
==References== | ==References== | ||
[http://www.ehow.com/info_8344665_uses-boiling-point-elevation.html Uses of Boiling Point Elevation] | |||
[https://en.wikipedia.org/wiki/Boiling_point] | [https://en.wikipedia.org/wiki/Boiling_point] | ||
[http://www.chemteam.info/Solutions/BP-elevation.html Boiling Point Elevation] | [http://www.chemteam.info/Solutions/BP-elevation.html Boiling Point Elevation] | ||
[https://www.chem.tamu.edu/class/majors/tutorialnotefiles/intext.htm Chemistry Basics] | [https://www.chem.tamu.edu/class/majors/tutorialnotefiles/intext.htm Chemistry Basics] |
Latest revision as of 17:31, 27 November 2016
Claimed for editing: Shreenu Sivakumar
The Main Idea
Boiling point is a key property of matter in which the vapor pressure of a liquid equals the pressure around the liquid and the liquid turns into a vapor. The boiling point of a substance is highly dependent on the environment around the substance. For example, at a high pressure a liquid has a higher boiling point than it would have at atmospheric pressure. Similarly, at low pressure a liquid has a lower boiling point. Another environmental factor that affects the boiling point of a liquid is whether the liquid is in a partial vacuum. In this state, the boiling point of a liquid will be lower than the boiling point of the same liquid at atmospheric pressure. In addition, different liquids boil at different temperatures for a set pressure.
A Mathematical Model
There are several equations that relate to boiling point, including the Clausius–Clapeyron equation and the boiling point elevation equation.
Clausius-Clapeyron Equation
This equation should be used when the vapor pressure and heat of vaporization for the liquid are known for a specific temperature and you are trying to calculate the boiling point.
The constants in the equation can be defined as:
TB = boiling point at the specific temperature
T0 = temperature at which the liquid boils
R = ideal gas constant, 8.3144598 J * [math]\displaystyle{ mol^{-1} }[/math] * [math]\displaystyle{ K^{-1} }[/math]
P = vapor pressure at the specific pressure given
P0 = pressure that corresponds to the T0 used
ΔHvap = heat of vaporization of the liquid
Boiling Point Elevation Equation
This equation accounts for a solution's boiling point being higher than just the solvent's boiling point. This equation should be used when The equation is:
ΔTb = Kb· bB
The constants in the equation can be defined as:
ΔTb = boiling point elevation, which is equal to Tb, solution - Tb, solvent
bB = Molality of the solution, bB = bsolute · i
A Computational Model
Creating a computational model for this equation would first include initializing the constants below:
Kb =
bB = bsolute · i
i =
bsolute =
From here the equation can be used:
ΔTb = Kb· bB
Examples
An example of an easy, middling and difficult problem are included in the link below. An easy example would be problems 3-5, a middling example would be problems 6, 8, 9, and 10. A difficult example would be the bonus problems.
Connectedness
Boiling point in itself is very important in many every day processes. It is a very important property that often helps to solve many problems about a system, especially in chemical engineering. One universal use for boiling point elevation is in cooking. Adding a solute such as salt to water that you are trying to boil will cause it to be hotter than it would be otherwise when the boiling point has not been elevated. A large amount of solute would be necessary to acquire an appreciable increase, however there is a very small increase no matter how much you use. Boiling point elevation is also used in sugar refining; at some points during the process the syrup is boiled and the temperature at which it boils depends on the concentration of sugar at that time.
History
In 1741, Anders Celsius defined his temperature scale on the melting and boiling temperature of water. Although Celsius did not discover the thermometer – both Philo and Hero of Alexandria (who also mentioned steam power in 50 BC) described such a principle – his design was much more precise than any previous such invention. Celsius scaled his measurements as 0 for boiling point and 100 for freezing point but the order was later reversed.
See also
For information on melting point, a very similar property, see Melting Point
Further reading
An article from Purdue:
An article out of the Britannica Online Encyclopedia:
External links
References
Uses of Boiling Point Elevation [2] Boiling Point Elevation Chemistry Basics Melting Point, Freezing Point, Boiling Point Boiling Point of Water