18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600:...
Transcript of 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600:...
![Page 1: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/1.jpg)
18.600: Lecture 3
What is probability?
Scott Sheffield
MIT
18.600 Lecture 3
![Page 2: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/2.jpg)
Outline
Formalizing probability
Sample space
DeMorgan’s laws
Axioms of probability
18.600 Lecture 3
![Page 3: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/3.jpg)
Outline
Formalizing probability
Sample space
DeMorgan’s laws
Axioms of probability
18.600 Lecture 3
![Page 4: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/4.jpg)
What does “I’d say there’s a thirty percent chance it willrain tomorrow” mean?
I Neurological: When I think “it will rain tomorrow” the“truth-sensing” part of my brain exhibits 30 percent of itsmaximum electrical activity.
I Frequentist: Of the last 1000 days that meteorologicalmeasurements looked this way, rain occurred on thesubsequent day 300 times.
I Market preference (“risk neutral probability”): Themarket price of a contract that pays 100 if it rains tomorrowagrees with the price of a contract that pays 30 tomorrow nomatter what.
I Personal belief: If you offered me a choice of these contracts,I’d be indifferent. (What if need for money is different in twoscenarios. Replace dollars with “units of utility”?)
18.600 Lecture 3
![Page 5: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/5.jpg)
What does “I’d say there’s a thirty percent chance it willrain tomorrow” mean?
I Neurological: When I think “it will rain tomorrow” the“truth-sensing” part of my brain exhibits 30 percent of itsmaximum electrical activity.
I Frequentist: Of the last 1000 days that meteorologicalmeasurements looked this way, rain occurred on thesubsequent day 300 times.
I Market preference (“risk neutral probability”): Themarket price of a contract that pays 100 if it rains tomorrowagrees with the price of a contract that pays 30 tomorrow nomatter what.
I Personal belief: If you offered me a choice of these contracts,I’d be indifferent. (What if need for money is different in twoscenarios. Replace dollars with “units of utility”?)
18.600 Lecture 3
![Page 6: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/6.jpg)
What does “I’d say there’s a thirty percent chance it willrain tomorrow” mean?
I Neurological: When I think “it will rain tomorrow” the“truth-sensing” part of my brain exhibits 30 percent of itsmaximum electrical activity.
I Frequentist: Of the last 1000 days that meteorologicalmeasurements looked this way, rain occurred on thesubsequent day 300 times.
I Market preference (“risk neutral probability”): Themarket price of a contract that pays 100 if it rains tomorrowagrees with the price of a contract that pays 30 tomorrow nomatter what.
I Personal belief: If you offered me a choice of these contracts,I’d be indifferent. (What if need for money is different in twoscenarios. Replace dollars with “units of utility”?)
18.600 Lecture 3
![Page 7: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/7.jpg)
What does “I’d say there’s a thirty percent chance it willrain tomorrow” mean?
I Neurological: When I think “it will rain tomorrow” the“truth-sensing” part of my brain exhibits 30 percent of itsmaximum electrical activity.
I Frequentist: Of the last 1000 days that meteorologicalmeasurements looked this way, rain occurred on thesubsequent day 300 times.
I Market preference (“risk neutral probability”): Themarket price of a contract that pays 100 if it rains tomorrowagrees with the price of a contract that pays 30 tomorrow nomatter what.
I Personal belief: If you offered me a choice of these contracts,I’d be indifferent. (What if need for money is different in twoscenarios. Replace dollars with “units of utility”?)
18.600 Lecture 3
![Page 8: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/8.jpg)
What does “I’d say there’s a thirty percent chance it willrain tomorrow” mean?
I Neurological: When I think “it will rain tomorrow” the“truth-sensing” part of my brain exhibits 30 percent of itsmaximum electrical activity.
I Frequentist: Of the last 1000 days that meteorologicalmeasurements looked this way, rain occurred on thesubsequent day 300 times.
I Market preference (“risk neutral probability”): Themarket price of a contract that pays 100 if it rains tomorrowagrees with the price of a contract that pays 30 tomorrow nomatter what.
I Personal belief: If you offered me a choice of these contracts,I’d be indifferent. (What if need for money is different in twoscenarios. Replace dollars with “units of utility”?)
18.600 Lecture 3
![Page 9: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/9.jpg)
Outline
Formalizing probability
Sample space
DeMorgan’s laws
Axioms of probability
18.600 Lecture 3
![Page 10: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/10.jpg)
Outline
Formalizing probability
Sample space
DeMorgan’s laws
Axioms of probability
18.600 Lecture 3
![Page 11: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/11.jpg)
Even more fundamental question: defining a set of possibleoutcomes
I Roll a die n times. Define a sample space to be{1, 2, 3, 4, 5, 6}n, i.e., the set of a1, . . . , an with eachaj ∈ {1, 2, 3, 4, 5, 6}.
I Shuffle a standard deck of cards. Sample space is the set of52! permutations.
I Will it rain tomorrow? Sample space is {R,N}, which standfor “rain” and “no rain.”
I Randomly throw a dart at a board. Sample space is the set ofpoints on the board.
18.600 Lecture 3
![Page 12: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/12.jpg)
Even more fundamental question: defining a set of possibleoutcomes
I Roll a die n times. Define a sample space to be{1, 2, 3, 4, 5, 6}n, i.e., the set of a1, . . . , an with eachaj ∈ {1, 2, 3, 4, 5, 6}.
I Shuffle a standard deck of cards. Sample space is the set of52! permutations.
I Will it rain tomorrow? Sample space is {R,N}, which standfor “rain” and “no rain.”
I Randomly throw a dart at a board. Sample space is the set ofpoints on the board.
18.600 Lecture 3
![Page 13: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/13.jpg)
Even more fundamental question: defining a set of possibleoutcomes
I Roll a die n times. Define a sample space to be{1, 2, 3, 4, 5, 6}n, i.e., the set of a1, . . . , an with eachaj ∈ {1, 2, 3, 4, 5, 6}.
I Shuffle a standard deck of cards. Sample space is the set of52! permutations.
I Will it rain tomorrow? Sample space is {R,N}, which standfor “rain” and “no rain.”
I Randomly throw a dart at a board. Sample space is the set ofpoints on the board.
18.600 Lecture 3
![Page 14: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/14.jpg)
Even more fundamental question: defining a set of possibleoutcomes
I Roll a die n times. Define a sample space to be{1, 2, 3, 4, 5, 6}n, i.e., the set of a1, . . . , an with eachaj ∈ {1, 2, 3, 4, 5, 6}.
I Shuffle a standard deck of cards. Sample space is the set of52! permutations.
I Will it rain tomorrow? Sample space is {R,N}, which standfor “rain” and “no rain.”
I Randomly throw a dart at a board. Sample space is the set ofpoints on the board.
18.600 Lecture 3
![Page 15: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/15.jpg)
Even more fundamental question: defining a set of possibleoutcomes
I Roll a die n times. Define a sample space to be{1, 2, 3, 4, 5, 6}n, i.e., the set of a1, . . . , an with eachaj ∈ {1, 2, 3, 4, 5, 6}.
I Shuffle a standard deck of cards. Sample space is the set of52! permutations.
I Will it rain tomorrow? Sample space is {R,N}, which standfor “rain” and “no rain.”
I Randomly throw a dart at a board. Sample space is the set ofpoints on the board.
18.600 Lecture 3
![Page 16: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/16.jpg)
Event: subset of the sample space
I If a set A is comprised of some (but not all) of the elementsof B, say A is a subset of B and write A ⊂ B.
I Similarly, B ⊃ A means A is a subset of B (or B is a supersetof A).
I If S is a finite sample space with n elements, then there are 2n
subsets of S .
I Denote by ∅ the set with no elements.
18.600 Lecture 3
![Page 17: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/17.jpg)
Event: subset of the sample space
I If a set A is comprised of some (but not all) of the elementsof B, say A is a subset of B and write A ⊂ B.
I Similarly, B ⊃ A means A is a subset of B (or B is a supersetof A).
I If S is a finite sample space with n elements, then there are 2n
subsets of S .
I Denote by ∅ the set with no elements.
18.600 Lecture 3
![Page 18: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/18.jpg)
Event: subset of the sample space
I If a set A is comprised of some (but not all) of the elementsof B, say A is a subset of B and write A ⊂ B.
I Similarly, B ⊃ A means A is a subset of B (or B is a supersetof A).
I If S is a finite sample space with n elements, then there are 2n
subsets of S .
I Denote by ∅ the set with no elements.
18.600 Lecture 3
![Page 19: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/19.jpg)
Event: subset of the sample space
I If a set A is comprised of some (but not all) of the elementsof B, say A is a subset of B and write A ⊂ B.
I Similarly, B ⊃ A means A is a subset of B (or B is a supersetof A).
I If S is a finite sample space with n elements, then there are 2n
subsets of S .
I Denote by ∅ the set with no elements.
18.600 Lecture 3
![Page 20: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/20.jpg)
Event: subset of the sample space
I If a set A is comprised of some (but not all) of the elementsof B, say A is a subset of B and write A ⊂ B.
I Similarly, B ⊃ A means A is a subset of B (or B is a supersetof A).
I If S is a finite sample space with n elements, then there are 2n
subsets of S .
I Denote by ∅ the set with no elements.
18.600 Lecture 3
![Page 21: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/21.jpg)
Intersections, unions, complements
I A ∪ B means the union of A and B, the set of elementscontained in at least one of A and B.
I A ∩ B means the intersection of A and B, the set of elementscontained on both A and B.
I Ac means complement of A, set of points in whole samplespace S but not in A.
I A \ B means “A minus B” which means the set of points in Abut not in B. In symbols, A \ B = A ∩ (Bc).
I ∪ is associative. So (A ∪ B) ∪ C = A ∪ (B ∪ C ) and can bewritten A ∪ B ∪ C .
I ∩ is also associative. So (A ∩ B) ∩ C = A ∩ (B ∩ C ) and canbe written A ∩ B ∩ C .
18.600 Lecture 3
![Page 22: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/22.jpg)
Intersections, unions, complements
I A ∪ B means the union of A and B, the set of elementscontained in at least one of A and B.
I A ∩ B means the intersection of A and B, the set of elementscontained on both A and B.
I Ac means complement of A, set of points in whole samplespace S but not in A.
I A \ B means “A minus B” which means the set of points in Abut not in B. In symbols, A \ B = A ∩ (Bc).
I ∪ is associative. So (A ∪ B) ∪ C = A ∪ (B ∪ C ) and can bewritten A ∪ B ∪ C .
I ∩ is also associative. So (A ∩ B) ∩ C = A ∩ (B ∩ C ) and canbe written A ∩ B ∩ C .
18.600 Lecture 3
![Page 23: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/23.jpg)
Intersections, unions, complements
I A ∪ B means the union of A and B, the set of elementscontained in at least one of A and B.
I A ∩ B means the intersection of A and B, the set of elementscontained on both A and B.
I Ac means complement of A, set of points in whole samplespace S but not in A.
I A \ B means “A minus B” which means the set of points in Abut not in B. In symbols, A \ B = A ∩ (Bc).
I ∪ is associative. So (A ∪ B) ∪ C = A ∪ (B ∪ C ) and can bewritten A ∪ B ∪ C .
I ∩ is also associative. So (A ∩ B) ∩ C = A ∩ (B ∩ C ) and canbe written A ∩ B ∩ C .
18.600 Lecture 3
![Page 24: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/24.jpg)
Intersections, unions, complements
I A ∪ B means the union of A and B, the set of elementscontained in at least one of A and B.
I A ∩ B means the intersection of A and B, the set of elementscontained on both A and B.
I Ac means complement of A, set of points in whole samplespace S but not in A.
I A \ B means “A minus B” which means the set of points in Abut not in B. In symbols, A \ B = A ∩ (Bc).
I ∪ is associative. So (A ∪ B) ∪ C = A ∪ (B ∪ C ) and can bewritten A ∪ B ∪ C .
I ∩ is also associative. So (A ∩ B) ∩ C = A ∩ (B ∩ C ) and canbe written A ∩ B ∩ C .
18.600 Lecture 3
![Page 25: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/25.jpg)
Intersections, unions, complements
I A ∪ B means the union of A and B, the set of elementscontained in at least one of A and B.
I A ∩ B means the intersection of A and B, the set of elementscontained on both A and B.
I Ac means complement of A, set of points in whole samplespace S but not in A.
I A \ B means “A minus B” which means the set of points in Abut not in B. In symbols, A \ B = A ∩ (Bc).
I ∪ is associative. So (A ∪ B) ∪ C = A ∪ (B ∪ C ) and can bewritten A ∪ B ∪ C .
I ∩ is also associative. So (A ∩ B) ∩ C = A ∩ (B ∩ C ) and canbe written A ∩ B ∩ C .
18.600 Lecture 3
![Page 26: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/26.jpg)
Intersections, unions, complements
I A ∪ B means the union of A and B, the set of elementscontained in at least one of A and B.
I A ∩ B means the intersection of A and B, the set of elementscontained on both A and B.
I Ac means complement of A, set of points in whole samplespace S but not in A.
I A \ B means “A minus B” which means the set of points in Abut not in B. In symbols, A \ B = A ∩ (Bc).
I ∪ is associative. So (A ∪ B) ∪ C = A ∪ (B ∪ C ) and can bewritten A ∪ B ∪ C .
I ∩ is also associative. So (A ∩ B) ∩ C = A ∩ (B ∩ C ) and canbe written A ∩ B ∩ C .
18.600 Lecture 3
![Page 27: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/27.jpg)
Venn diagrams
A B
18.600 Lecture 3
![Page 28: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/28.jpg)
Venn diagrams
A B
Ac ∩Bc
Ac ∩BA ∩B
A ∩Bc
18.600 Lecture 3
![Page 29: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/29.jpg)
Outline
Formalizing probability
Sample space
DeMorgan’s laws
Axioms of probability
18.600 Lecture 3
![Page 30: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/30.jpg)
Outline
Formalizing probability
Sample space
DeMorgan’s laws
Axioms of probability
18.600 Lecture 3
![Page 31: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/31.jpg)
DeMorgan’s laws
I “It will not snow or rain” means “It will not snow and it willnot rain.”
I If S is event that it snows, R is event that it rains, then(S ∪ R)c = Sc ∩ Rc
I More generally: (∪ni=1Ei )c = ∩ni=1(Ei )
c
I “It will not both snow and rain” means “Either it will notsnow or it will not rain.”
I (S ∩ R)c = Sc ∪ Rc
I (∩ni=1Ei )c = ∪ni=1(Ei )
c
18.600 Lecture 3
![Page 32: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/32.jpg)
DeMorgan’s laws
I “It will not snow or rain” means “It will not snow and it willnot rain.”
I If S is event that it snows, R is event that it rains, then(S ∪ R)c = Sc ∩ Rc
I More generally: (∪ni=1Ei )c = ∩ni=1(Ei )
c
I “It will not both snow and rain” means “Either it will notsnow or it will not rain.”
I (S ∩ R)c = Sc ∪ Rc
I (∩ni=1Ei )c = ∪ni=1(Ei )
c
18.600 Lecture 3
![Page 33: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/33.jpg)
DeMorgan’s laws
I “It will not snow or rain” means “It will not snow and it willnot rain.”
I If S is event that it snows, R is event that it rains, then(S ∪ R)c = Sc ∩ Rc
I More generally: (∪ni=1Ei )c = ∩ni=1(Ei )
c
I “It will not both snow and rain” means “Either it will notsnow or it will not rain.”
I (S ∩ R)c = Sc ∪ Rc
I (∩ni=1Ei )c = ∪ni=1(Ei )
c
18.600 Lecture 3
![Page 34: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/34.jpg)
DeMorgan’s laws
I “It will not snow or rain” means “It will not snow and it willnot rain.”
I If S is event that it snows, R is event that it rains, then(S ∪ R)c = Sc ∩ Rc
I More generally: (∪ni=1Ei )c = ∩ni=1(Ei )
c
I “It will not both snow and rain” means “Either it will notsnow or it will not rain.”
I (S ∩ R)c = Sc ∪ Rc
I (∩ni=1Ei )c = ∪ni=1(Ei )
c
18.600 Lecture 3
![Page 35: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/35.jpg)
DeMorgan’s laws
I “It will not snow or rain” means “It will not snow and it willnot rain.”
I If S is event that it snows, R is event that it rains, then(S ∪ R)c = Sc ∩ Rc
I More generally: (∪ni=1Ei )c = ∩ni=1(Ei )
c
I “It will not both snow and rain” means “Either it will notsnow or it will not rain.”
I (S ∩ R)c = Sc ∪ Rc
I (∩ni=1Ei )c = ∪ni=1(Ei )
c
18.600 Lecture 3
![Page 36: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/36.jpg)
DeMorgan’s laws
I “It will not snow or rain” means “It will not snow and it willnot rain.”
I If S is event that it snows, R is event that it rains, then(S ∪ R)c = Sc ∩ Rc
I More generally: (∪ni=1Ei )c = ∩ni=1(Ei )
c
I “It will not both snow and rain” means “Either it will notsnow or it will not rain.”
I (S ∩ R)c = Sc ∪ Rc
I (∩ni=1Ei )c = ∪ni=1(Ei )
c
18.600 Lecture 3
![Page 37: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/37.jpg)
Outline
Formalizing probability
Sample space
DeMorgan’s laws
Axioms of probability
18.600 Lecture 3
![Page 38: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/38.jpg)
Outline
Formalizing probability
Sample space
DeMorgan’s laws
Axioms of probability
18.600 Lecture 3
![Page 39: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/39.jpg)
Axioms of probability
I P(A) ∈ [0, 1] for all A ⊂ S .
I P(S) = 1.
I Finite additivity: P(A ∪ B) = P(A) + P(B) if A ∩ B = ∅.I Countable additivity: P(∪∞i=1Ei ) =
∑∞i=1 P(Ei ) if Ei ∩ Ej = ∅
for each pair i and j .
18.600 Lecture 3
![Page 40: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/40.jpg)
Axioms of probability
I P(A) ∈ [0, 1] for all A ⊂ S .
I P(S) = 1.
I Finite additivity: P(A ∪ B) = P(A) + P(B) if A ∩ B = ∅.I Countable additivity: P(∪∞i=1Ei ) =
∑∞i=1 P(Ei ) if Ei ∩ Ej = ∅
for each pair i and j .
18.600 Lecture 3
![Page 41: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/41.jpg)
Axioms of probability
I P(A) ∈ [0, 1] for all A ⊂ S .
I P(S) = 1.
I Finite additivity: P(A ∪ B) = P(A) + P(B) if A ∩ B = ∅.
I Countable additivity: P(∪∞i=1Ei ) =∑∞
i=1 P(Ei ) if Ei ∩ Ej = ∅for each pair i and j .
18.600 Lecture 3
![Page 42: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/42.jpg)
Axioms of probability
I P(A) ∈ [0, 1] for all A ⊂ S .
I P(S) = 1.
I Finite additivity: P(A ∪ B) = P(A) + P(B) if A ∩ B = ∅.I Countable additivity: P(∪∞i=1Ei ) =
∑∞i=1 P(Ei ) if Ei ∩ Ej = ∅
for each pair i and j .
18.600 Lecture 3
![Page 43: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/43.jpg)
I Neurological: When I think “it will rain tomorrow” the“truth-sensing” part of my brain exhibits 30 percent of itsmaximum electrical activity. Should have P(A) ∈ [0, 1] andP(S) = 1 but not necessarily P(A ∪ B) = P(A) + P(B) whenA ∩ B = ∅.
I Frequentist: P(A) is the fraction of times A occurred duringthe previous (large number of) times we ran the experiment.Seems to satisfy axioms...
I Market preference (“risk neutral probability”): P(A) isprice of contract paying dollar if A occurs divided by price ofcontract paying dollar regardless. Seems to satisfy axioms,assuming no arbitrage, no bid-ask spread, complete market...
I Personal belief: P(A) is amount such that I’d be indifferentbetween contract paying 1 if A occurs and contract payingP(A) no matter what. Seems to satisfy axioms with somenotion of utility units, strong assumption of “rationality”...
18.600 Lecture 3
![Page 44: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/44.jpg)
I Neurological: When I think “it will rain tomorrow” the“truth-sensing” part of my brain exhibits 30 percent of itsmaximum electrical activity. Should have P(A) ∈ [0, 1] andP(S) = 1 but not necessarily P(A ∪ B) = P(A) + P(B) whenA ∩ B = ∅.
I Frequentist: P(A) is the fraction of times A occurred duringthe previous (large number of) times we ran the experiment.Seems to satisfy axioms...
I Market preference (“risk neutral probability”): P(A) isprice of contract paying dollar if A occurs divided by price ofcontract paying dollar regardless. Seems to satisfy axioms,assuming no arbitrage, no bid-ask spread, complete market...
I Personal belief: P(A) is amount such that I’d be indifferentbetween contract paying 1 if A occurs and contract payingP(A) no matter what. Seems to satisfy axioms with somenotion of utility units, strong assumption of “rationality”...
18.600 Lecture 3
![Page 45: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/45.jpg)
I Neurological: When I think “it will rain tomorrow” the“truth-sensing” part of my brain exhibits 30 percent of itsmaximum electrical activity. Should have P(A) ∈ [0, 1] andP(S) = 1 but not necessarily P(A ∪ B) = P(A) + P(B) whenA ∩ B = ∅.
I Frequentist: P(A) is the fraction of times A occurred duringthe previous (large number of) times we ran the experiment.Seems to satisfy axioms...
I Market preference (“risk neutral probability”): P(A) isprice of contract paying dollar if A occurs divided by price ofcontract paying dollar regardless. Seems to satisfy axioms,assuming no arbitrage, no bid-ask spread, complete market...
I Personal belief: P(A) is amount such that I’d be indifferentbetween contract paying 1 if A occurs and contract payingP(A) no matter what. Seems to satisfy axioms with somenotion of utility units, strong assumption of “rationality”...
18.600 Lecture 3
![Page 46: 18.600: Lecture 3 .1in What is probability?math.mit.edu/~sheffield/600/Lecture3.pdf · 18.600: Lecture 3 What is probability? Scott She eld MIT 18.600 Lecture 3. Outline Formalizing](https://reader035.fdocuments.us/reader035/viewer/2022062602/5ed0ca8c6d761e663b7d23ad/html5/thumbnails/46.jpg)
I Neurological: When I think “it will rain tomorrow” the“truth-sensing” part of my brain exhibits 30 percent of itsmaximum electrical activity. Should have P(A) ∈ [0, 1] andP(S) = 1 but not necessarily P(A ∪ B) = P(A) + P(B) whenA ∩ B = ∅.
I Frequentist: P(A) is the fraction of times A occurred duringthe previous (large number of) times we ran the experiment.Seems to satisfy axioms...
I Market preference (“risk neutral probability”): P(A) isprice of contract paying dollar if A occurs divided by price ofcontract paying dollar regardless. Seems to satisfy axioms,assuming no arbitrage, no bid-ask spread, complete market...
I Personal belief: P(A) is amount such that I’d be indifferentbetween contract paying 1 if A occurs and contract payingP(A) no matter what. Seems to satisfy axioms with somenotion of utility units, strong assumption of “rationality”...
18.600 Lecture 3