-54 is included in negative integer or rational nos.
In a certain sense, the set of complex numbers is "larger" than the set of real numbers, since the set of real numbers is a proper subset of it.
Are disjoint and complementary subsets of the set of real numbers.
Real numbers are a proper subset of Complex numbers.
You are finding the mean of the set of numbers.
-54 is included in negative integer or rational nos.
No, it is the empty set. Then the set containing only the number 0 (Peano's first axiom).
real numbers
It is the smallest number that is a multiple of all the numbers in the set. Or to put it another way, it is the smallest number divisible by all the numbers in the set.
In a certain sense, the set of complex numbers is "larger" than the set of real numbers, since the set of real numbers is a proper subset of it.
the set of real numbers
The derived set of a set of rational numbers is the set of all limit points of the original set. In other words, it includes all real numbers that can be approached arbitrarily closely by elements of the set. Since the rational numbers are dense in the real numbers, the derived set of a set of rational numbers is the set of all real numbers.
Are disjoint and complementary subsets of the set of real numbers.
Real numbers are a proper subset of Complex numbers.
The set of real numbers is a subset of the set of complex numbers. For the set of complex numbers, given in the form (a + bi), where a and b can be any real number, the number is only a real number, if b = 0.
You are finding the mean of the set of numbers.
There is only one set of Real numbers.