This is a repost from stats.stackexchange where I did not get a satisfactory response. I have two datasets, the first on schools, and the second lists students in each school *who have failed in a standardized test* (emphasis intentional). Fake datasets can be generated by (thanks to Tharen):

```
#random school data for 30 schools
schools.num = 30
schools.data = data.frame(school_id=seq(1,schools.num)
,tot_white=sample(100:300,schools.num,TRUE)
,tot_black=sample(100:300,schools.num,TRUE)
,tot_asian=sample(100:300,schools.num,TRUE)
,school_rev=sample(4e6:6e6,schools.num,TRUE)
)
#total students in each school
schools.data$tot_students = schools.data$tot_white + schools.data$tot_black + schools.data$tot_asian
#sum of all students all schools
tot_students = sum(schools.data$tot_white, schools.data$tot_black, schools.data$tot_asian)
#generate some random failing students
fail.num = as.integer(tot_students * 0.05)
students = data.frame(student_id=sample(seq(1:tot_students), fail.num, FALSE)
,school_id=sample(1:schools.num, fail.num, TRUE)
,race=sample(c('white', 'black', 'asian'), fail.num, TRUE)
)
```

I am trying to estimate P(Fail=1 | Student Race, School Revenue). If I run a multinomial discrete choice model on the student dataset, I shall clearly be estimating P(Race | Fail=1). I obviously have to estimate the inverse of this. Since all the pieces of information are available in the two datasets (P(Fail), P(Race), Revenue), I see no reason why this can't be done. But I am stumped as to actually how to implement in R. Any pointer would be much appreciated. Thanks.