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The negative integers greater than -6 are: -5, -4, -3, -2, -1.

Positive integers are greater than zero, negative integers are less than zero. The set of positive integers is closed under multiplication (and form a group), the set of negative integers is not.

The Natural numbers is the set of Integers greater than 0 (ie {1, 2, 3, ...})

There is no such thing as a negative set of integers. There can be a set of negative integers, but that is not the same thing. And even that does not make sense.There is no such thing as a negative set of integers. There can be a set of negative integers, but that is not the same thing. And even that does not make sense.There is no such thing as a negative set of integers. There can be a set of negative integers, but that is not the same thing. And even that does not make sense.There is no such thing as a negative set of integers. There can be a set of negative integers, but that is not the same thing. And even that does not make sense.

-5,-4,-3,-2,-1 we do not include 0 because it is not a negative number. If the question said non-positive integers we would add 0

This is the 'null' or 'empty' set.There are no numbers greater than '-3' and less than '-9'.

A set of four non-negative integers.A set of four non-negative integers.A set of four non-negative integers.A set of four non-negative integers.

The set of negative integers.

It is a universal set

They are the negative integers.

The positive integers less than 100 are a finite set. The positive integers greater than 100 are an infinite set.

No. Zero is neither positive nor negative, by definition. A positive number is greater than zero. A negative number is less than zero. Although, zero is a non-negative number (a set that includes all positive numbers and zero).

Whole numbers are integers greater than or equal to zero.

That would be: -7, -6, -5, -4, -3, -2, -1.

The set of positive integers less than 50 is finite (there are 49).The set of all integers less than 50 is infinite, because it includes an infinite number of negative numbers.

No, there are an infinite number of integers. So, there would be an infinite (infinity/2-1) number of positive integers. And, there would be an infinite (infinity-10) number of integers greater than ten.

Negative integers, zero and the positive integers, together form the set of integers.

"Positive integers" is the set of all whole numbers which are greater than 0: that is, the infinite set comprising 1, 2, 3, ...

An integer is a whole number. The set of integers can be expressed as {-∞, ..., -3, -2, -1, 0, 1, 2, 3, ..., ∞}. The ∞ symbol represents infinity (an integer with infinite digits). The integer zero (0) lies at the centre of the set and is neither positive nor negative. The positive integers are the counting numbers greater than zero {1, 2, 3, ..., ∞}. The negative integers are the inverses of the counting numbers, all less than zero {-∞, ..., -3, -2, -1}. Positive integers are sometimes denoted with the + symbol for clarity, such as {+1, +2, +3, ..., +∞).Positive integers are the counting numbers (1, 2, 3, 4, 5 and so on) greater than zero. Negative integers are their counterparts (-1, -2, -3, -4, -5 and so on) less than zero.

If there is any zero in the set of integers, their product is zero.If there is an odd number of negative integers, then the product is negative, whereas if there is an even number of negative values, the product is positive.

The concept of successor in the definition of the set of integers.

The set of Counting Numbers or Natural Numbersincludes positive integers but not negative integers or zero.The set is 1,2,3,4,5,6....and so on.

Positive integers are all the whole numbers greater than zero: 1, 2, 3, 4,5,... and negative integers are-1.-2,-3.-4,-5,.... The integers are the union of the positive integers, the negative integers and 0. Integers are numbers that can be written without a fractional or decimal component, and fall within the set {... −2, −1, 0, 1, 2, ...}. A third definition is the integers are the union of the natural numbers, their negatives, and 0.

They are in the subset of integers which are greater than 1.