0.5714
0.5714
I would think 100 is the answer.
0.5714
15
No remainder because the digits of 45549 finally add up to 9
0.5714
I would think 100 is the answer.
0.5714
799
15
Add the digits. If they sum to '9' , then it will divide by '9' , without a remainder. Hence 4554 ; 4 + 5 + 5 + 4 = 18 = 1 + 8 = 9
21.2857
I think you're wanting a number of two digits, one of which is 3, that when divided by 7 gives a quotient and a remainder of 1 and when that quotient is divided by 2 it gives a remainder of 1: Answer: 36 36 ÷ 7 = 5 r 1 5 ÷ 2 = 2 r 1 If you want the number to be such that if it is divided by 7 the remainder is 1 and if it is divided by 2 the remainder is 1, then: Answer: 43 43 ÷ 7 = 6 r 1 43 ÷ 2 = 21 r 1
No remainder because the digits of 45549 finally add up to 9
The answer is 1. The smallest prime is 2 and the greatest prime (of however many digits) must be odd. The remainder of ANY odd number when divided by 2 must be 1.
506
You cannot make a palindrome with 3 different digits. You can only do that if you have a set of paired digits, and at most one single digit.