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Q: Is the set of integers greater than ten is finite?

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

The set of integers is an infinite set as there are an infinite number of integers.

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

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.

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

It is finite. There are exactly 66,415 of them.

Infinite.

In mathematics, a finite set is a set that has a finite number of elements. For example, (2,4,6,8,10) is a finite set with five elements. The number of elements of a finite set is a natural number (non-negative integer), and is called the cardinality of the set. A set that is not finite is called infinite. For example, the set of all positive integers is infinite: (1,2,3,4, . . .)

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

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

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.

Think about it - this one is fairly simple. Ask yourself the question: "Does this set have a largest element?" If the answer is "yes", then the set is finite. If the answer is "no", the set is infinite. Note: This reasoning works for subsets of natural numbers; for integers, additional adjustments are needed.

sequence

The empty set is a finite set.

-4

It is {-4, -3, -2, -1}.

No. It can be infinite, finite or null. The set of odd integers is infinite, the set of even integers is infinite. Their intersection is void, or the null set.

Whole numbers are integers greater than or equal to zero.

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

You forgot to provide the sets from which one is to choose. However, I hope to help you, by providing an example: {2, 3.14, 7, 11, 15} is such a set, because all of the elements of the set are numbers that are greater than zero. Note that not all of the numbers have to be integers.

{ 3, 4, 5, 6, 7, 8 }

x=2, 3, 4...

prove that every subset of a finite set is a finite set?

if by Numbers you mean Integers, then the answer is TRUE. if it is real numbers, then it is false.

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