No. Any number raised to a power is not prime.
Scientific notation is a way of representing numbers, usually very large or very small, in the form a*10^b where 1 ≤ |a| < 10 is a decimal number and b is an integer (negative or positive). a is called the mantissa and b is called the exponent.
Scientific notation is a way of representing numbers, usually very large or very small, in the form a*10^b where 1 ≤ |a| < 10 is a decimal number and b is an integer (negative or positive). a is called the mantissa and b is called the exponent.
If you have a power, the "base" is the large number to the left; the "exponent" is the raised (and smaller) number to the right.
This is a LARGE subject, but in brief. Infinity is a number beyond counting. A Googol is a large number, 10100 and a Googolplex is 10Googol . Both numbers are probably larger than the number of electrons in the universe, so are of philosophic interest only. There are various orders of infinity. For example there is an infinite quantity of integer numbers, but between each successive integer you can insert an infinity of fractional numbers. And so on.
No. Any number raised to a power is not prime.
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Infinity is not a finite number, but a concept. No matter how large a finite integer is, there is always an integer that is higher by 1.
Scientific notation is a way of representing numbers, usually very large or very small, in the form a*10^b where 1 ≤ |a| < 10 is a decimal number and b is an integer (negative or positive). a is called the mantissa and b is called the exponent.
Scientific notation is a way of representing numbers, usually very large or very small, in the form a*10^b where 1 ≤ |a| < 10 is a decimal number and b is an integer (negative or positive). a is called the mantissa and b is called the exponent.
Scientific notation is a way of representing numbers, usually very large or very small, in the form a*10^b where 1 ≤ |a| < 10 is a decimal number and b is an integer (negative or positive). a is called the mantissa and b is called the exponent.
-55 is a negative integer, but not particularly large.
If you have a power, the "base" is the large number to the left; the "exponent" is the raised (and smaller) number to the right.
No. The positive integers are {1, 2, 3, 4, 5, ...}. They start at 1 (which is the least positive integer) and progress forever (to infinity). There is no end to the positive integers, so there is no greatest positive integer. Another way to look at it might be to think of any really large integer (a "counting" or "whole" number) and add one. That will create a "next bigger" large number. You can continue to do this infinitely many times.
This is a LARGE subject, but in brief. Infinity is a number beyond counting. A Googol is a large number, 10100 and a Googolplex is 10Googol . Both numbers are probably larger than the number of electrons in the universe, so are of philosophic interest only. There are various orders of infinity. For example there is an infinite quantity of integer numbers, but between each successive integer you can insert an infinity of fractional numbers. And so on.
It is a number. A counting number, an integer, a rational number, a real number, etc.It is a number. A counting number, an integer, a rational number, a real number, etc.It is a number. A counting number, an integer, a rational number, a real number, etc.It is a number. A counting number, an integer, a rational number, a real number, etc.
The smallest integer is 2.There is no smallest number. Dividing 1152 by any number of the form x = 1/(2k2) where k is an integer will result in a perfect square. Since there is no limit to how large k can be, there is no limit to how small x can be.