If all you have to do is create a matrix of zeroes, you don't need to supply the correct number of zeroes, just supply one and let R recycle it to the required length:
matrix(0, ncota*nslope, 4)
The reason the second one fails is that
ncota * nslope * 4 is not exactly 116:
> (ncota * nslope * 4) == 116
> all.equal(ncota * nslope * 4, 116)
all.equal shows that these are equal if you allow for the floating point error.
?rep includes the following:
Non-integer values of ‘times’ will be truncated towards zero. If
‘times’ is a computed quantity it is prudent to add a small fuzz.
and if we do as it says and add a small fuzz,
rep does give the desired number of 0s:
> length(rep(0, times = ncota*nslope*4 + 0.00000001))
As noted by Hadley (in the comments), this fuzz can be easily added using the
> length(rep(0, times = zapsmall(ncota*nslope*4)))