@@ -1,3 +1,11 @@
-Imagine [[Omega]], a perfectly honest being which is also known to be a historically very accurate predictor of people's actions in this situation, sets up two boxes containing things, and gives you a choice between taking **box A and B** and **box B** alone.
+Imagine [[Omega]], a perfectly honest being which is also known to be a historically very accurate predictor of people's actions in this situation, sets up two boxes containing things, and gives you a choice between taking **box A and B** and **box B** alone. At the time this is set to you, the contents of the boxes are fixed.
-Box A contains $10000, an amount of money. It's transparent, so you can see that it contains this. Box B is opaque, but you are told (by Omega, who is perfectly honest) that it contains $1000000, a larger amount of money, **[[iff]]** it predicted that you would take **only** box B.
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+Box A contains $10000, an amount of money. It's transparent, so you can see that it contains this. Box B is opaque, but you are told (by Omega, who is perfectly honest) that it contains $1000000, a larger amount of money, **[[iff]]** it predicted earlier that you would take **only** box B.
+
+A CDT agent reasons that, regardless of what happened in the past, they will always get an extra $10000 by taking box A and B. Omega predicts this, so they receive a total of $10000.
+
+An EDT agent reasons that their behaviour now is evidence about what the (unobserved) opaque box's contents are - conditional on them taking box A and B, the B very probably contains nothing, and conditional on them taking B only, B very probably contains $10000000. As such, they take box B only and receive $1000000.
+
+=== Generalizations
+
+The Transparent Newcomb's Paradox variant makes both boxes transparent.
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