98 of them.
If the integer is positive, then you plot it at a distance of that many units to the right of the origin (zero-point). If the integer is negative, the point is to the left of the origin.
10 of them.
Including itself and 1, the number 7429 has eight positive integer factors. They are: 1, 17, 19, 23, 323, 391, 437, 7429
It is a variable positive integer.
2 times 30+31+32+33 41+42+43
Infinitely many in both cases.
It is a natural number. It is a positive integer. It is a positive rational number. It is a positive real number. It is a perfect square. It is a three digit integer. It is a palindromic integer. Probably many other sorts.
98 of them.
They have positive non-integer dimensions.
If the integer is positive, then you plot it at a distance of that many units to the right of the origin (zero-point). If the integer is negative, the point is to the left of the origin.
I see two of them . . . 9 and 6 .
10 of them.
1. The only positive integer that equals 9 is 9.
No. In fact, there are no intergers. However, there are infinitely many positive integers and equally many negative ones.
I can find 5: 37 (in a sequence of 2) ie 37 + 38 24 (3) 13 (5) 10 (6) 3(10)
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.