It is not possible to answer the question because the operator between C and (AintersectionB) is not visible.
-- If the two integers have the same sign, their quotient is positive. -- If the two integers have different signs, their quotient is negative.
All positive integers are all greater than negative integers.
No, none of them are positive integers.
Then they are, simply, two different integers. Any two positive integers will do, according to the specification.Then they are, simply, two different integers. Any two positive integers will do, according to the specification.Then they are, simply, two different integers. Any two positive integers will do, according to the specification.Then they are, simply, two different integers. Any two positive integers will do, according to the specification.
-- All but one of them are greater than 8 . -- All but one of them are written with more than 1 digit. -- All are multiples of 4 . -- All are multiples of 2 . -- All are even numbers. -- All are positive, real, natural, integers.
10
10 of them.
-- If the two integers have the same sign, their quotient is positive. -- If the two integers have different signs, their quotient is negative.
None of the positive common divisors of those numbers are multiples of 10.
Non-positive integers are zero and the negative integers.
All positive integers are all greater than negative integers.
Sum of the first 15 positive integers is 15*(15+1)/2 = 120 Sum of the first 15 multiples of 8 is 8*120 = 960
Negative integers, zero and the positive integers, together form the set of integers.
Algorithm: multiples input: two positive integers, m and n output: print first n multiples of m i = m; for j = 1 to n print i i = i + m; next j
The set of integers includes negative integers as well as positive integers. It also includes the number zero which is neither negative nor positive.
For people: Measure height in centimetres and positive integers will be the most appropriate. Measure it in metres and positive rationals, to 2 decimal places will fit the bill. For taller structures, buildings or mountains, positive integers for metres.
No, none of them are positive integers.