The number -4 belongs to the set of all integers. It also belongs to the rationals, reals, complex numbers.
Natural (counting) numbers; integers; rational numbers; real numbers; complex numbers. And any other set that you choose to define, that happens to include the number 4 - for example, the set of square numbers, or even numbers, the set of the numbers {3, 4, 5, 7, 14, 48}, etc, the set of numbers containing the letter o in their English name.
The mean number of a number set is the same as the average number of a number set. It is the number that results from adding all of the numbers in a set together and then dividing by the amount of numbers you added together. For example, in the set 1, 2, 3, 4, 5, you add the five numbers together and get 15. There are five numbers in the set, so when you divide 15 by 5, you get 3. This is the mean number.
In a set of 4 numbers, the number of combinations depends on how many numbers you want to choose from that set. If you want to choose all 4 numbers, there is only 1 combination. If you choose 2 numbers from the set, the number of combinations is calculated using the formula ( \binom{n}{r} = \frac{n!}{r!(n-r)!} ), which in this case would be ( \binom{4}{2} = 6 ). For different values of r (choosing 1, 2, or 3 numbers), the combinations would be 4, 6, and 4 respectively.
Mean is the same as average. To get the mean of a set of numbers: First, you add up all the numbers. Second, you divide by the number of numbers in the set. Total of all the numbers/Number of numbers in the set
16, multiply the number of numbers there are in the set by itself
the middle number in a set of numbers, taken as the average of the two middle numbers when the set has an even amount of numbers: 4 is the median of 1, 3, 4, 8, 9.
Natural (counting) numbers; integers; rational numbers; real numbers; complex numbers. And any other set that you choose to define, that happens to include the number 4 - for example, the set of square numbers, or even numbers, the set of the numbers {3, 4, 5, 7, 14, 48}, etc, the set of numbers containing the letter o in their English name.
The mean number of a number set is the same as the average number of a number set. It is the number that results from adding all of the numbers in a set together and then dividing by the amount of numbers you added together. For example, in the set 1, 2, 3, 4, 5, you add the five numbers together and get 15. There are five numbers in the set, so when you divide 15 by 5, you get 3. This is the mean number.
Thin of the number line with a solid dot on the number -4. Everything to the left of your dot satisfies real numbers less than or equal to 4. The set it infinite, of course. In set builder notation, {x: x< or = 4}
In a set of 4 numbers, the number of combinations depends on how many numbers you want to choose from that set. If you want to choose all 4 numbers, there is only 1 combination. If you choose 2 numbers from the set, the number of combinations is calculated using the formula ( \binom{n}{r} = \frac{n!}{r!(n-r)!} ), which in this case would be ( \binom{4}{2} = 6 ). For different values of r (choosing 1, 2, or 3 numbers), the combinations would be 4, 6, and 4 respectively.
Mean is the same as average. To get the mean of a set of numbers: First, you add up all the numbers. Second, you divide by the number of numbers in the set. Total of all the numbers/Number of numbers in the set
No, the set of mixed numbers is a subset of the set of rational numbers. For example the mixed number 1 ¼ is the same as the improper fraction 5/4 [a rational number]. Note that it is a subset, because integers are also rational numbers, but a mixed number will not be an integer. Also, any fraction between 0 and 1 will not be a mixed number.
It is an average you sum up the set of numbers and then divide by the number of numbers in the set 1,2,2,2,3,8,5,9 = 32 /8 = 4
16, multiply the number of numbers there are in the set by itself
The set of numbers that begin with the number 1 is Natural Numbers.
9 belongs in the sets: -Natural number set, positive whole numbers -Integer number set, whole numbers -Rational number set, numbers that are not never ending -Real number set, basic numbers without i and that can be expressed in say amounts of apples -Complex number set, the set that contains both real and unreal numbers
They are members of the infinite set of numbers of the form 23*k where k is an integer. Since the set is infinite, it is not possible to list them.