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Q: What are the characteristics of each set of numbers that make up the set of integers?

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Consecutive integers added or subtracted will turn out to be odd numbers. You can't make 8 with consecutive integers.

The concepts of "prime numbers" and "composite numbers" make sense for integers (whole numbers), not for arbitrary real numbers.

there are real numbers, natural numbers, and whole numbers that all make up rational numbers

The numbers are 106 and 108.

The natural numbers, the negative natural numbers and 0 together make up the integers.

They make up a set of numbers which can be expressed as ratios of two integers, in the form p/q where q is non-zero.

There are no such answers. The sum of even numbers is even. The sum of odd numbers could be even, but the sum of three consecutive odd numbers is always odd. One could swap the questions to get potentially answerable questions: Sum of 3 consecutive EVEN integers = 150 48 + 50 + 52 = 150 unfortunately, we can already see that if we were to make these odd integers (add 1 to each), we would get 153, not 151. Sum of 3 consecutive ODD integers = 151 49 + 51 + 53 = 153 47 + 49 + 51 = 147 We can see that, whenever we slide our three consecutive integers up one, we raise the value of the sum up 3, and if we jump from odd to odd, or even to even, we raise each integer by 2, so we raise the sum by 6.

2 square numbers subtracted from each other to make 8 = -6

the set of real numbers are the numbers which make the entire number system. they include all the different number systems like integers,rational numbers,irrational numbers,whole numbers & natural numbers.

No. Adding negative numbers will make them more negative.

Start with the natural numbers, 0, 1, 2, ... .Then add the set of negative numbers: this makes up the integers. Next add the set of ratios of any two integers (the second being non-zero): this makes up the rational numbers. Note that each one can be represented as a terminating or repeating decimal number (and conversely). Finally, add the set of all numbers which cannot be expressed as terminating or repeating decimal numbers. This is the set of irrational numbers. The rationals and irrationals, together, make up the set of real numbers.

The prime factorization of 512 is 29. There are infinite ways to get 512 as a sum or quotient of positive integers.

The terms "odd" and "even" are used for integers, and don't make sense for other types of numbers.

No, even numbers are evenly divisible by two, which means that only the multiples of two are even numbers. Odd numbers make up the other integers. There is no such thing as an odd or even decimal.

Start with the natural numbers, 0, 1, 2, ... .Then add the set of negative numbers: this makes up the integers. Next add in the set of ratios of any two integers (the second being non-zero): this makes up the rational numbers. Next add in the set of all numbers which cannot be expressed as terminating or repeating decimal numbers. This is the set of irrational numbers. The rationals and irrationals, together, make up the set of real numbers.

The expressions "prime" and "composite" are used for integers. These terms don't make sense for fractions or decimals. The reason they don't make sense is that the definition of "prime" is based on divisibility between integers. If you allow division between any real numbers, any number is "divisible" (can be divided) by any other number (except division by zero).The expressions "prime" and "composite" are used for integers. These terms don't make sense for fractions or decimals. The reason they don't make sense is that the definition of "prime" is based on divisibility between integers. If you allow division between any real numbers, any number is "divisible" (can be divided) by any other number (except division by zero).The expressions "prime" and "composite" are used for integers. These terms don't make sense for fractions or decimals. The reason they don't make sense is that the definition of "prime" is based on divisibility between integers. If you allow division between any real numbers, any number is "divisible" (can be divided) by any other number (except division by zero).The expressions "prime" and "composite" are used for integers. These terms don't make sense for fractions or decimals. The reason they don't make sense is that the definition of "prime" is based on divisibility between integers. If you allow division between any real numbers, any number is "divisible" (can be divided) by any other number (except division by zero).

The numbers -2 and -7 add together to make -9, and their difference is 5.

You make no 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.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.

The numbers 4 and 6 are integers, there are no fractions. When multiplied together as indicated in the question they make the number 24.

Since both these numbers are integers, rounding to the nearest hundred thousandths will make no difference.

They make up a set of numbers which can be expressed as ratios of two integers, in the form p/q where q is non-zero.

the first people to make changes in the integers are RAMANUJAM.

show ways to make 42 writing the numbers of tens and ones for each way.

Irational numbers are not real numners. Integers are any real number. the difference is that well ones real and one was created to make math seem harder.