9.2: Probabilities

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Page ID: 50211

Paul Penfield, Jr.
Massachusetts Institute of Technology via MIT OpenCourseWare

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Although the problem has been set up, we do not know which actual state the system is in. To express what we do know despite this ignorance, or uncertainty, we assume that each of the possible states \(A_i\) has some probability of occupancy \(p(A_i)\) where \(i\) is an index running over the possible states. A probability distribution \(p(A_i)\) has the property that each of the probabilities is between 0 and 1 (possibly being equal to either 0 or 1), and (since the input events are mutually exclusive and exhaustive) the sum of all the probabilities is 1:

\(1 = \displaystyle \sum_{i} p(A_i) \tag{9.1}\)

As has been mentioned before, two observers may, because of their different knowledge, use different probability distributions. In other words, probability, and all quantities that are based on probabilities, are subjective, or observer-dependent. The derivations below can be carried out for any observer.

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