Yes, but that’s not the relevant datum, because of selection effects. The relevant question is how well employed is the person who had a choice to do a Ph.D. or not compared to the counterfactual person who made an…
*then dg/du = x and dg - xdu =0
It’s ironic to see the link to that post which implicitly assumes that functions are defined on R^n, under a post about Legendre transform, whose point is that functions are defined on state spaces of systems, and only…
This is one of the most strawman (to put it mildly) things I have ever read.
>but probabilistically the strategy is optimal. For what value function? It is basically never the case that my value function is "all choices other than the optimal are equally bad" -- which is what this rule is based…
https://www.amazon.com/Nuts-Bolts-Proofs-Introduction-Mathem... https://www.amazon.com/Art-Craft-Problem-Solving/dp/04717890...
105B/39.51M=2657. Can I just take the money?
Yes, but that’s not the relevant datum, because of selection effects. The relevant question is how well employed is the person who had a choice to do a Ph.D. or not compared to the counterfactual person who made an…
*then dg/du = x and dg - xdu =0
It’s ironic to see the link to that post which implicitly assumes that functions are defined on R^n, under a post about Legendre transform, whose point is that functions are defined on state spaces of systems, and only…
This is one of the most strawman (to put it mildly) things I have ever read.
>but probabilistically the strategy is optimal. For what value function? It is basically never the case that my value function is "all choices other than the optimal are equally bad" -- which is what this rule is based…
https://www.amazon.com/Nuts-Bolts-Proofs-Introduction-Mathem... https://www.amazon.com/Art-Craft-Problem-Solving/dp/04717890...
105B/39.51M=2657. Can I just take the money?