Basically 1, 2, 3, 4, 5 are all real numbers, but as a real number doesn't only limit of integers, it can be 2/5, √2, or even π.
320
It is: 26*56 = 1,000,000 or one million
As the number being raised to the powers is the same, the powers can be added together and the answer is the number raised to this power: 56 x 5-2 = 56 + -2 = 54 = 625
The natural numbers are 1, 2, 3, 4, 5, 6, ... The whole numbers are 0, 1, 2, 3, 4, 5, 6, ... Zero is a whole number, but not a natural number.
Basically 1, 2, 3, 4, 5 are all real numbers, but as a real number doesn't only limit of integers, it can be 2/5, √2, or even π.
Yes.
5, 6.5, 1/2
It depends on what number you would like. Given any real number, it is possible to find a real polynomial of degree 5 that will go through these 5 and the nominated 6th number. Fitting a polynomial of degree 4 to these numbers, the fitted next number is 44. Un = (-5n4 + 58n3 - 232n2 + 371n - 186)/6 for n = 1, 2, 3, ... ------------------------ All the above is true but just in case the simple answer is the real answer, I'd bet on 4 (then -2, 5,-3)
No. 5 and 2 are real numbers. Their difference, 3, is a rational number.
It is a real number in the sense that it is an irrational number which can't be expressed as a fraction and its length is 5 times the square root of 2
1/2, 5, pi, respectively
320
It can be a real number which is not a rational number. That is, an irrational number such as sqrt(2), or cuberoot(5), or pi, or e, or phi. Or it can be a number that is not even a real number, such as a complex number or a quaternion.
It is: 26*56 = 1,000,000 or one million
As the number being raised to the powers is the same, the powers can be added together and the answer is the number raised to this power: 56 x 5-2 = 56 + -2 = 54 = 625
2