It it not possible for six odd numbers to total an odd number so there has to be a sneaky trick like 3 + 3 + 3 + 1 + 11...
Yes. Any set of digits without a fraction or decimal point is a whole number. The whole numbers are all the numbers you say when you count (or their negatives).
yes their is i am 10 so if you disagree dont say oh she does not know anything A positive number is any number that is greater than zero.
non integral is type of numbers behaviour: i can say that set of numbers without any "holes inside" are integral and set of numbers with "holes inside are non integral. example : integral group "1..100" non integral group "1,4,8,67"
The simplest example (of infinitely many) is probably the squareroot of two multiplied by itself equals two. Take any rational number, say 4.177 and divide it with any irrational number, say the square root of 13, and you will get a new irrational number. The product of your two irrational numbers now make a rational number.
Yes. Together, they make up the entire set of real numbers. That is to say, any real number is either rational or irrational.
Ah hah! You didn't say so, but you must be talking about 2 and 3 ... the only two consecutive numbers that are both prime numbers. There can't be any others. Because if you have any other two consecutive numbers, one of them has to be an even number ... divisible by 2. Since that number is divisible by 2, it's not a prime number.
prime numbers can't be simplified because you can't simplify a whole number. i think what you are trying to say is why a prime number doesn't have any factors. a prime number doesn't have any factors because it is only divisible by one and itself.
The set of real numbers is divided into rational and irrational numbers. The two subsets are disjoint and exhaustive. That is to say, there is no real number which is both rational and irrational. Also, any real number must be rational or irrational.
Add any two numbers that add to 1134 or 7734. So pick any number, say n. Calculate the second number as 1134 - n or 7734 - n. Add these two.
i would say no
Irrational numbers are infinitely dense. That is to say, between any two irrational (or rational) numbers there is an infinite number of irrational numbers. So, for any irrational number close to 6 it is always possible to find another that is closer; and then another that is even closer; and then another that is even closer that that, ...
Yes. This is because rational and irrational numbers are infinitely dense. Between any two such numbers there are infinitely many numbers and consequently there can be no "next" or consecutive number.