Oh, isn't that a happy little question! When you divide numbers by 3, those that leave a remainder of 2 are like little surprises waiting to be discovered. You'll find these numbers in a sequence like 2, 5, 8, 11, and so on, each one adding a touch of uniqueness to the world of mathematics. Just imagine the joy of finding these special numbers and how they can bring a smile to your mathematical creations.
8. For a remainder of 2 when divided by 4, they must be 10, 14, 18, ..., 98 For a remainder of 1 when divided by 3, they must be 10, 13, 16, ..., 97 The overlap is 10, 22, 34, 46, 58, 70, 82, 94 - 8 numbers
24.6667
24.6667
26.6667
5.6667
-3
3, when divided by 2.
It is: 4710 which will leave no remainder when divided by 2 or 3
29
59
Yes. 18 can be divided by these numbers without a remainder: 1 2 3 6 9 and 18.
87 is one of infinitely many numbers that meet these requirements.
If the number has a remainder of 2 or 4 when divided by 6, it is an even number, so it is not prime number. 6n + 2 = 2 (3n + 1), so it is divisible by 2. 6n + 4 = 2 (3n + 2), so it is divisible by 2. If the number has a remainder of 3 when divided by 6, it is divisible by 3, so it is not a prime number. 6n + 3 = 3 (2n + 1), so it is divisible by 3. However, there are two prime numbers that do not have a remainder of 1 or 5 when divided by 6 : 2 and 3
8. For a remainder of 2 when divided by 4, they must be 10, 14, 18, ..., 98 For a remainder of 1 when divided by 3, they must be 10, 13, 16, ..., 97 The overlap is 10, 22, 34, 46, 58, 70, 82, 94 - 8 numbers
58
57 can be divided by 3 and 19 with no remainder. 51 can be divided by 3 and 17 with no remainder.
It is 98910.