acs: entropy: mixing and oil spills · 11/23/2010 · entropy: mixing and oil spills acs-nsta...
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LIVE INTERACTIVE LEARNING @ YOUR DESKTOP
November 23, 2010
ACS: ENTROPY: MIXING AND OIL SPILLS
Presented by: Jerry Bell and Pat Deibert and Bonnie Bloom
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 20102
ENTROPY: MIXING AND OIL SPILLS
Familiar Examples of Mixing (and Unmixing)
Jerry Bell, ACS (retired)Bonnie Bloom, Hilliard Davidson HS, OHPat Diebert, Sheboygan Falls HS, WI
Pat Bonnie Jerry
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 2010
![Page 3: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/3.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 20103
Quiz: After a long time, what will we observe in the beaker?
A. The dye will coalesce and look similar to the second image above.
B. The dye will spread uniformly throughout the solution.
C. The dye will separate and float on the water.
Add a water-soluble dye to water.
![Page 4: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/4.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 20104
Quiz: After a long time, what will we observe in the beaker?
A. The dye will coalesce and look similar to the second image above.
B. The dye will spread uniformly throughout the solution.
C. The dye will separate and float on the water.
Add a water-soluble dye to water.
![Page 5: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/5.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 20105
This was the expected result. Your experience tells you that mixing is a spontaneous process that takes place in one direction, that is, unmixing of homogeneous mixtures never occurs spontaneously.
Whatever model we develop to explain mixing, must be consistent with and predict this observation from experience.
![Page 6: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/6.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 20106
Activity 1: Use your water, oil, and capped bottle.
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 20107
Activity 1: Use your water, oil, and capped bottle. Add the water and oil to the bottle, cap it, and shake, just as Pat does with vinegar and oil in this video. Observe and record what happens to your mixture.
![Page 8: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/8.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 20108
Activity 1: Use your water, oil, and capped bottle. Add the water and oil to the bottle, cap it, and shake, just as Pat does with vinegar and oil in this video. Observe and record what happens to your mixture.
A. My mixture separates with the oil on top and water on the bottom.
B. My mixture remains mixed after shaking.
![Page 9: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/9.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 20109
Activity 1: Use your water, oil, and capped bottle. Add the water and oil to the bottle, cap it, and shake, just as Pat does with vinegar and oil in this video. Observe and record what happens to your mixture.
A. My mixture separates with the oil on top and water on the bottom.
B. My mixture remains mixed after shaking.
Evidently, oil and water separate and do not form a homogeneous mixture. Your experience tells you that this separation is a spontaneous process. Whatever model we develop to explain mixing, must also be consistent with and predict this unmixing observation from experience.
![Page 10: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/10.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201010
Let’s pause for Questions?
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201011
The Direction of Change
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201012
If a system can exist in more than one observable state (mixed or unmixed, for example), spontaneous changes will be in the direction toward the state that is most probable.
![Page 13: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/13.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201013
If a system can exist in more than one observable state (mixed or unmixed, for example), spontaneous changes will be in the direction toward the state that is most probable.The number of distinguishable arrangements, W, of the molecules (and energy) that give a particular state of a system is a measure of the probability that this state will be observed.
![Page 14: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/14.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201014
If a system can exist in more than one observable state (mixed or unmixed, for example), spontaneous changes will be in the direction toward the state that is most probable.The number of distinguishable arrangements, W, of the molecules (and energy) that give a particular state of a system is a measure of the probability that this state will be observed.Fundamental assumption: Each distinguishably different molecular arrangement of a system is equally probable.
![Page 15: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/15.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201015
If a system can exist in more than one observable state (mixed or unmixed, for example), spontaneous changes will be in the direction toward the state that is most probable.The number of distinguishable arrangements, W, of the molecules (and energy) that give a particular state of a system is a measure of the probability that this state will be observed.Fundamental assumption: Each distinguishably different molecular arrangement of a system is equally probable.How do you tell whether two arrangements are distinguishable?
![Page 16: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/16.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201016
Two arrangements are distinguishable if you can tell them apart.
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201017
Two arrangements are distinguishable if you can tell them apart.
![Page 18: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/18.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201018
Two arrangements are distinguishable if you can tell them apart.
Exchanging identical objects does not produce a new arrangement.
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201019
Two arrangements are distinguishable if you can tell them apart.
Exchanging identical objects does not produce a new arrangement.
![Page 20: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/20.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201020
What is the number of distinguishable arrangements, W, of two identical objects in four boxes where each box can hold only one object? One arrangement is shown below.
Quiz: In the empty two-by-two grid of boxes, stamp two where you could place the objects to form an arrangement that is distinguishable from the one shown.
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201021
What is the number of distinguishable arrangements, W, of two identical objects in four boxes where each box can hold only one object?
W = 6. The six distinguishable arrangements are:
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201022
Let’s pause for Questions?
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201023
A Molecular Mixing Model
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201024
Mixing model: Three dye molecules and 12 water molecules in a15-cell (3 × 5) container. Initially
![Page 25: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/25.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201025
Mixing model: Three dye molecules and 12 water molecules in a15-cell (3 × 5) container. Initially
Number, Wdye, of distinguishable arrangements of dye molecules?
![Page 26: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/26.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201026
Mixing model: Three dye molecules and 12 water molecules in a15-cell (3 × 5) container. Initially
Number, Wdye, of distinguishable arrangements of dye molecules?Wdye = 1
![Page 27: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/27.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201027
Mixing model: Three dye molecules and 12 water molecules in a15-cell (3 × 5) container. Initially
Number, Wdye, of distinguishable arrangements of dye molecules?Wdye = 1
Number, Wwater, of distinguishable arrangements of water molecules?
![Page 28: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/28.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201028
Mixing model: Three dye molecules and 12 water molecules in a15-cell (3 × 5) container. Initially
Number, Wdye, of distinguishable arrangements of dye molecules?Wdye = 1
Number, Wwater, of distinguishable arrangements of water molecules?Wwater = 1
![Page 29: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/29.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201029
Mixing model: Three dye molecules and 12 water molecules in a15-cell (3 × 5) container. Initially
Number, Wdye, of distinguishable arrangements of dye molecules?Wdye = 1
Number, Wwater, of distinguishable arrangements of water molecules?Wwater = 1
Wtotal = Wdye· Wwater = 1·1 = 1
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201030
Now allow the dye molecules to begin to mix into the water, so they can occupy any of the cells in the top two layers, that is three identical molecules and six possible cells. One possible arrangement is
What are Wdye, Wwater, and Wtotal for this system?
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201031
Now allow the dye molecules to begin to mix into the water, so they can occupy any of the cells in the top two layers, that is three identical molecules and six possible cells. One possible arrangement is
What are Wdye, Wwater, and Wtotal for this system?
For a system of n identical objects (dye molecules) allowed tooccupy any of N boxes (cells), one object per box, the numberof distinguishable arrangements, Wn,N is given by
Wn,N = N!n!(N −n)!
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201032
Now allow the dye molecules to begin to mix into the water, so they can occupy any of the cells in the top two layers, that is three identical molecules and six possible cells. One possible arrangement is
What are Wdye, Wwater, and Wtotal for this system?
For a system of n identical objects (dye molecules) allowed tooccupy any of N boxes (cells), one object per box, the numberof distinguishable arrangements, Wn,N is given by
Wn,N =
Wdye = W3,6 =
N!n!(N −n)!
6!3!(6−3)!
![Page 33: ACS: ENTROPY: MIXING AND OIL SPILLS · 11/23/2010 · Entropy: Mixing and Oil Spills ACS-NSTA Entropy Web Seminar 1, Fall 2010 3 Quiz: After a long time, what will we observe in](https://reader035.vdocuments.mx/reader035/viewer/2022070802/5f02ca637e708231d4060638/html5/thumbnails/33.jpg)
Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201033
Now allow the dye molecules to begin to mix into the water, so they can occupy any of the cells in the top two layers, that is three identical molecules and six possible cells. One possible arrangement is
What are Wdye, Wwater, and Wtotal for this system?
For a system of n identical objects (dye molecules) allowed tooccupy any of N boxes (cells), one object per box, the numberof distinguishable arrangements, Wn,N is given by
Wn,N =
Wdye = W3,6 = =
N!n!(N −n)!
6!3!(6−3)!
6 ⋅5 ⋅4 ⋅(3!)(3⋅2 ⋅1)⋅(3!)=
6 ⋅5 ⋅4(3⋅2 ⋅1)=
1⋅5 ⋅41 = 5 ⋅4 = 20
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201034
Now allow the dye molecules to begin to mix into the water, so they can occupy any of the cells in the top two layers, that is three identical molecules and six possible cells. One possible arrangement is
What are Wdye, Wwater, and Wtotal for this system?
For a system of n identical objects (dye molecules) allowed tooccupy any of N boxes (cells), one object per box, the numberof distinguishable arrangements, Wn,N is given by
Wn,N =
Wdye = W3,6 = =
Wwater = 1 (only one choice for waters, once dye locations chosen)
Wtotal = Wdye· Wwater = 20·1 = 20
N!n!(N −n)!
6!3!(6−3)!
6 ⋅5 ⋅4 ⋅(3!)(3⋅2 ⋅1)⋅(3!)=
6 ⋅5 ⋅4(3⋅2 ⋅1)=
1⋅5 ⋅41 = 5 ⋅4 = 20
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201035
Continuing the mixing successively into 9, 12, and all 15 cells gives
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201036
Continuing the mixing successively into 9, 12, and all 15 cells gives
Quiz:As a check on what we have done, look at the systemfrom the point of view of the water molecules.Use the formula you have to calculate W12,15, that is, the number of ways of arranging 12 objects (watermolecules) in 15 cells. Enter your result.
A. W12,15 < 455 B. W12,15 = 455 C. W12,15 > 455
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201037
Continuing the mixing successively into 9, 12, and all 15 cells gives
Quiz:As a check on what we have done, look at the systemfrom the point of view of the water molecules.Use the formula you have to calculate W12,15, that is, the number of ways of arranging 12 objects (watermolecules) in 15 cells. Enter your result.
A. W12,15 < 455 B. W12,15 = 455 C. W12,15 > 455
The calculation and result are
W12,15 = = = Wwater
Wtotal = Wdye·Wwater = 1·455 = 455
15!12!(15−12)!
15 ⋅14 ⋅13⋅(12!)12!(3⋅2 ⋅1) =15 ⋅14 ⋅13
(3⋅2 ⋅1) = 5 ⋅7 ⋅131 = 455
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201038
Continuing the mixing successively into 9, 12, and all 15 cells gives
If a system can exist in more than one observable state spontaneous changes will be in the direction toward the state that is most probable. Our model shows what you know:
mixing is a spontaneous process
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201039
Let’s pause for Questions?
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201040
Probability and Entropy
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201041
ENTROPY (S)
Definition (molecular viewpoint) S ≡ k·lnWk is Boltzmann’s constant
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201042
ENTROPY (S)
Definition (molecular viewpoint) S ≡ k·lnWk is Boltzmann’s constant
Note that the combination of numbers of arrangements, Ws, is multiplicative, as demanded by the rules of combinations and permutations.
However, we want thermodynamic functions to be additive and the logarithmic dependence of S on W, makes entropies for different parts of a system additive. For example:
Stotal = k·lnWtotal = k·ln(Wdye·Wwater) = k·lnWdye + k·lnWwater = Sdye + Swater
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201043
ENTROPY (S)
Definition (molecular viewpoint) S ≡ k·lnWk is Boltzmann’s constant
Consider a change for which the total number of arrangements increases, that is Wfinal > Winitial, a spontaneous change.
For this change:
ΔStotal = k·lnWfinal – k·lnWinitial = k·ln[Wfinal /Wwater] > 0
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201044
ENTROPY (S)
Definition (molecular viewpoint) S ≡ k·lnWk is Boltzmann’s constant
Consider a change for which the total number of arrangements increases, that is Wfinal > Winitial, a spontaneous change.
For this change:
ΔStotal = k·lnWfinal – k·lnWinitial = k·ln[Wfinal /Wwater] > 0
Entropy increases in spontaneous changes
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201045
Note that another, more fundamental, way to view the increasing entropy as mixing occurs in our model is that the volume available for the molecules (dye or water) to mix into is increasing. Thus, the larger the volume a system of molecules can occupy, the higher the entropy.
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201046
Let’s pause for Questions?
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201047
Entropy, Oil, and Water
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201048
Why don’t oil and water mix? Water molecules surround non-polar solutes and are “frozen out” (dark blue) of the rest of the liquid, thus reducing the effective volume available to the solvent molecules.
“Free” water = 39 – 12 = 27 “Free” water = 39 – 7 = 32Smix < Sunmix
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201049
Why don’t oil and water mix? Spontaneous process is unmixing. Oil spills float on the surface--as you observed previously.
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201050
One way to ameliorate an oil spill is to add “dispersants,” which are detergents, ambiphilic molecules with polar and nonpolar ends.
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201051
One way to ameliorate an oil spill is to add “dispersants,” which are detergents, ambiphilic molecules with polar and nonpolar ends.
entropy increases
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201052
One way to ameliorate an oil spill is to add “dispersants,” which are detergents, ambiphilic molecules with polar and nonpolar ends.
entropy increases micelle formation
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201053
One way to ameliorate an oil spill is to add “dispersants,” which are detergents, ambiphilic molecules with polar and nonpolar ends.
entropy increases micelle formation
Micelle incorporating nonpolar solutes
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201054
Activity 2: Add detergent to your oil and water mixture, cap the bottle, and shake well. Also watch as Pat adds an egg yolk to her vinegar and oil dressing. Observe and record what happens to your mixture.
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201055
Activity 2: Add detergent to your oil and water mixture, cap the bottle, and shake well. Also watch as Pat adds an egg yolk to her vinegar and oil dressing. Observe and record what happens to your mixture.
A. My mixture separates with the oil on top and water on the bottom.
B. My mixture remains mixed after shaking.
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201056
Activity 2: Add detergent to your oil and water mixture, cap the bottle, and shake well. Also watch as Pat adds an egg yolk to her vinegar and oil dressing. Observe and record what happens to your mixture.
A. My mixture separates with the oil on top and water on the bottom.
B. My mixture remains mixed after shaking.
The phospholipids and proteins in an egg yolk are ambiphilic molecules that act like your detergent molecules to disperse the oil in the vinegar to form a stable emulsion. With the appropriate recipe, this is how we make mayonnaise.
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201057
Different conditions may yield different results. High pressure ofsmall non-polar molecules and low temperature to encourage formation of a solid water phase can produce this change.
Little freedom of movement Solutes mix into many cellsSunmix < Smix
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201058
Mixing, formation of clathrates, gas hydrates -- non-polar moleculesin the relatively open structure of some forms of ice, is spontaneous. As methane at high pressure seeps out of fissures into cold water at the bottom of the sea (Gulf of Mexico, for example), clathrate formation is rapid.
So rapid, that the gushing methane gas from the Gulf oil spill formed the clathrate immediately and clogged a container designed to trap the oil.
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Entropy: Mixing and Oil Spills
ACS-NSTA Entropy Web Seminar 1, Fall 201059
Note that temperature is a factor in the formation of clathrates, but we have not yet connected entropy and temperature. That is our task in the next ACS-NSTA web seminar.
December 15, 2010Entropy, Energy, and Temperature
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Thank you to the sponsor of tonight's Web Seminar:
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61http://learningcenter.nsta.org
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http://www.elluminate.com
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National Science Teachers AssociationDr. Francis Q. Eberle, Executive Director
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