Assuming they are all independent separate events, the probability of receiving at least one acceptance is 33% if you ap
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Anonymous
| There are so many factors ignored here. It isn’t a simple math problem. |
Anonymous
| You miss 100% of the shots you dont take. |
Anonymous
| I think my 3.0 student retains a 0% chance of getting into any school with a 4% acceptance rate even if he applies to 20 of them. |
Anonymous
A student is not one-dimensional, but they are multidimensional. A student could be a nerd, but at the same time artsy, or sporty. Yale might like the artsy you, Dartmouth likes the sporty you, while MIt likes the nerdy you. Of course applying to multiple colleges enhances the overall chance of acceptance. Unless you’re a one trick pony. In that case, yeah, applying to 10 is nearly the same as applying to 1. |
Anonymous
A stitch in time saves 9! |
Anonymous
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So much wrong -on both sides.
Yes they are independent events, completely. But NO, you CANNOT use game theory to determine this with any degree of accuracy. Admissions rate is NOT the chance that any one individual applicant’s chances has at admission. You cannot know that number. Therefore you cannot use game theory formula with any accuracy whatsoever. It is not like a deck of cards or a pair of dice. If you don’t have accurate input to the formula, there can be no accurate output. Don’t fall into that trap. |
Anonymous
| But we do know the middle50% of their sat and gpa, so if someone falls into the top end of that or exceeds it , I think they will have at least that 4% or whatever chancd |
Anonymous
Again, many factors are being ignored here. |
Anonymous
| I guess I'll just shotgun the T20 with my 3.8 and 1480, since I've got a pretty shot at getting in somewhere, according to your math. There is no empirical evidence that this won't work. |
Anonymous
cant hurt |
Anonymous
If the students stats are in the top 25% for each school then, yes this would essentially be true. If not, the odds are 94% that the student would be accepted to none. But as others have said you can’t win if you are not in the game, but if you don’t truly understand the math, are you really in the game. |
Anonymous
| Each college has its algorithms. They are proprietary trade secrets within the multi-billion-dollar enrollment management industry. Decisions are more data-driven than ever, but applicants are not able to access that. |
Anonymous
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They are not totally independent, but also not totally dependent. But your point is taken.
The takeaway is that college admission is NOT a lottery system like some posters claimed. If your stats puts on in the game, you want to apply to AS MANY top 20 as possible!!! |
Anonymous
In mathematical terms, related to game theory, they are totally independent events, in that the outcome of one does not affect the outcome of another. https://mathematicalmysteries.org/independent-and-dependent-events/ But as noted, despite that you cannot use game theory because you can’t know the starting odds of your admission the way you can know that you have a 1 in 52 chance of drawing the 8 of hearts from a full deck of cards. |
Anonymous
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Look, forecasters don't get the future inflation number or the USD-JPY rate correctly most of the time, but it doesn't stop them from using reason to arrive at a forecast , and they get the direction right most of the time even if not the exact number.
OP is similarly using reason. And the math is correct if you assume a set of qualified students whose stats put them in the range of these schools. OP used 4% acceptance as an example. You can use Naviance to actually get a sense of probability of not being accepted to a school for your stats (calculate acceptance for that higher stat cluster). So let's say using the Naviance plot of GPA and SAT, your child has a 15% probability of admit at Cornell, and a 15% admit at Dartmouth, (that would be 85% probability of rejection at each). So the probability of rejection FROM BOTH is 0.85*0.85= 0.7225 , i.e. 72%. If Harvard is a 8% admit probability for your stats, then the probability of reject from ALL THREE is 0.92*0.85*0.85= 0.6647 (66%). The math is correct...and the correct interpretation is: 1. For those students whose stats put them within the range, applying to more elite schools lowers the likelihood of being rejected by all or put another way improves the probability of being accepted by at least one. 2. But that said , the resultant rejection probability is still high and for most of the best kids rarely gets better than a coin toss. You don't get shattered when you lose a coin toss. Don't get shattered when your kid doesn't get into an elite. |