Welcome to the wonderfully wacky world of floating point arithmetic. MATLAB computes the determinant using an LU decomposition, i.e., linear algebra. It does so since determinant is wildly inefficient for arrays of even mild size unless it did.
A consequence of that LU decomposition, is the determinant is computed as a floating point number. This is not an issue, UNLESS you have entered a problem as trivially simple as you have - the determinant of a 2x2 matrix composed only of small integers. In that case, the determinant itself will also be a (reasonably) small integer. So you could resolve the issue by simply computing the determinant of the 2x2 matrix yourself, using the textbook formula.
D = A(1,1)*A(2,2) - A(1,2)*A(2,1);
This will be exactly correct for small integer matrices A, although even this may show some loss of precision for SOME matrices. For example, consider the simple, 2x2 matrix A:
>> A = [1e8 1;1 1e8];
We know that the determinant of this matrix is 1e16-1.
Of course, MATLAB displays this as 1e16. But in fact, the number generated by the det function in MATLAB is actually 9999999999999998, so 1e16-2. As bad, had I used the formula I gave above for the 2x2 determinant, it would have returned a result that is still incorrect, 10000000000000000. Both results were off by 1. You can learn more about these issues by looking at the help for eps.
My point is, there are some 2x2 matrices where computation of the determinant will simply be problematic, even though they are integer matrices.
Once your matrices become non-integer, then things really do become true floating point numbers, not integers. This means you simply MUST use comparisons with tolerances on them rather than a test for exact unity. This is a good rule anyway. Always use a tolerance when you make a test for equality, at least until you have learned enough to know when to disobey that rule!
So, you might choose a test like this:
if abs(det(A) - 1) < (10*eps(1))
warning('The sky is falling! det has failed me.')
Note that I've used eps(1), since we are comparing things to 1. The fact that I multiplied eps by 10 allows a wee bit of slop in the computation of the determinant.
Finally, you should know that whatever test you are using the determinant for here, it is often a BBBBBBBBBBAAAAAAAAAADDDDDDDD thing to do! Yes, maybe your teacher told you to do this, or you found something in a textbook. But the determinant is just a bad thing to use for numerical computations. There are almost always alternatives to the determinant. Again, this is called judgement, knowing when that which you are told to use is actually the wrong thing to do.