30
The odd integers less than 5 are 1 and 3. Therefore, there are 2 odd integers that meet this criterion.
666 integers.
17
Oh, dude, integers less than negative 3 include negative 4, negative 5, negative 6, and so on. It's like a never-ending parade of negative numbers marching further away from zero. So, if you're looking for some company in the negative realm, there are plenty of integers to keep you company below negative 3.
A counterexample to the statement "the difference of two integers is less than either integer" can be demonstrated with the integers 5 and 3. The difference is (5 - 3 = 2). Here, 2 is not less than either integer, as it is less than 5 but greater than 3. Thus, this example shows that the difference can be less than one integer but not the other.
This is the 'null' or 'empty' set.There are no numbers greater than '-3' and less than '-9'.
666 integers.
17
Oh, dude, integers less than negative 3 include negative 4, negative 5, negative 6, and so on. It's like a never-ending parade of negative numbers marching further away from zero. So, if you're looking for some company in the negative realm, there are plenty of integers to keep you company below negative 3.
1 and 2
That can be expressed as -4 < [|x|] < 3. Those integers are -3, -2, -1, 0, 1, and 2.
Multiples of 3 that are less than 30 are numbers that can be divided evenly by 3 without leaving a remainder. The multiples of 3 less than 30 are 3, 6, 9, 12, 15, 18, 21, 24, 27. These numbers are obtained by multiplying 3 by integers starting from 1 up to the largest integer that, when multiplied by 3, is less than 30.
The integers that are greater than -2 but less than 5 are: -1, 0, 1, 2, 3, 4
3, 2, 1
333 (including 3 itself).
The integers less than or equal to 2 are: {2, 1, 0, -1, -2, -3, ...}
The integers that are greater than -3 and less than 0 are -2 and -1. These two numbers fall within the specified range, with -3 not included since we are looking for numbers greater than it, and 0 also not included as we seek numbers less than it.