No, because there are an infiite number of sets that contain -5. For example {-5, 8}, which does not even have a name.
1.18 is a number and number do not contain any sets (of any kind).
You can invent an infinite number of sets that don't contain the number zero. For a start, a common set that doesn't contain the zero is the set of natural, or counting, numbers (1, 2, 3...).You can invent an infinite number of sets that don't contain the number zero. For a start, a common set that doesn't contain the zero is the set of natural, or counting, numbers (1, 2, 3...).You can invent an infinite number of sets that don't contain the number zero. For a start, a common set that doesn't contain the zero is the set of natural, or counting, numbers (1, 2, 3...).You can invent an infinite number of sets that don't contain the number zero. For a start, a common set that doesn't contain the zero is the set of natural, or counting, numbers (1, 2, 3...).
If the question is a number with a set of 8 zeros behind it, the answer is a hundred million. If the question is, as stated, 8 sets of zeros, the answer depends on how big each set is.
The number 8 goes in infinitely many sets of numbers. Most notably: 8 is a "Natural number" (a number you can use when counting objects) 8 is a "Composite number" (a number that isn't prime) 8 is an "Even number" (a number that can divide by 2 without a remainder) 8 is a "Fibonacci number" (a number in the sequence where each number equals the sum of the two preceding numbers, beginning at 1,1)
integers and rational numbers
No, because there are an infiite number of sets that contain -5. For example {-5, 8}, which does not even have a name.
Two sets that contain the same number of elements are called "equinumerous" or "equipollent."
1.18 is a number and number do not contain any sets (of any kind).
You can invent an infinite number of sets that don't contain the number zero. For a start, a common set that doesn't contain the zero is the set of natural, or counting, numbers (1, 2, 3...).You can invent an infinite number of sets that don't contain the number zero. For a start, a common set that doesn't contain the zero is the set of natural, or counting, numbers (1, 2, 3...).You can invent an infinite number of sets that don't contain the number zero. For a start, a common set that doesn't contain the zero is the set of natural, or counting, numbers (1, 2, 3...).You can invent an infinite number of sets that don't contain the number zero. For a start, a common set that doesn't contain the zero is the set of natural, or counting, numbers (1, 2, 3...).
If the question is a number with a set of 8 zeros behind it, the answer is a hundred million. If the question is, as stated, 8 sets of zeros, the answer depends on how big each set is.
The number 8 goes in infinitely many sets of numbers. Most notably: 8 is a "Natural number" (a number you can use when counting objects) 8 is a "Composite number" (a number that isn't prime) 8 is an "Even number" (a number that can divide by 2 without a remainder) 8 is a "Fibonacci number" (a number in the sequence where each number equals the sum of the two preceding numbers, beginning at 1,1)
1 and 8, 2 and 4. both sets of numbers multiply to 8.
Diploid cells contain twice the number of chromosomes as haploid cells. Sex cells (sperm and egg) are haploids. Therefore, if the diploid number is 16, sperm and egg cells must contain 8 each.
There is an infinite number of data sets that have a mean of 8. One such set is 7, 8, 9.
8 sets of 8. 8 x 8 = 64
well if you count by 1, 2, 3 ,4 you would know and also if you multiply that will let you know what 15 is contain in.....