I am doing logistic regression in R. Can somebody clarify what is the differences of running these two lines?

1. glm(Response ~ Temperature, data=temp, 
                    family = binomial(link="logit"))
2. glm(cbind(Response, n - Response) ~ Temperature, 
                    data=temp, family =binomial, Ntrials=n)

The data looks like this: (Note : Response is binary. 0=Die 1=Not die)

Response  Temperature
0         24.61
1         39.61
1         39.50
0         22.71
0         21.61
1         39.70
1         36.73
1         33.32
0         21.73
1         49.61
  • Paul...the first line is straight forward to understand. :). I tried to figure out the second one because some examples in R used it. AND..those two generates different result. :)
    – Eddie
    Feb 2, 2012 at 12:24
  • 4
    @James is right, I believe. If n is 1 then you should get exactly the same answer in this case. In general you should use the second form when you have more than one trial per observation. The Ntrials argument is bogus/unnecessary, as far as I can tell.
    – Ben Bolker
    Feb 2, 2012 at 13:12
  • Thank you very much Ben. Could you elaborate furtheron what do you mean by "more than one trial pr observation" please? :)-
    – Eddie
    Feb 2, 2012 at 15:39
  • 4
    Suppose your data are grouped so that you had measured multiple individuals (e.g. 10) at each temperature value; you then might have 7 out of 10 surviving at temp 22.71, so your estimation would be based on a binomial outcome of 7 surviving with probability p in N=10 trials. Usually when people say "logistic regression" they mean ungrouped data (N=1), reserving "binomial regression" for the grouped case, but the terms are somewhat interchangeable ...
    – Ben Bolker
    Feb 2, 2012 at 19:30

1 Answer 1


When doing the binomial or quasibinomial glm, you either supply a probability of success, a two-column matrix with the columns giving the numbers of successes and failures or a factor where the first level denotes failure and the others success on the left hand side of the equation. See details in ?glm.

  • 9
    Note that when using the frequency form of a binomial glm, you should supply the number of observations per trial in the weights argument. It would look like: glm(events/n ~ x, data=*, weights=n, ...)
    – Hong Ooi
    Feb 2, 2012 at 15:16

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