The idea here is to factor each of the numbers. Then look for common factors, i.e., factors that appear in both numbers.
It is: 11
11
17,303
4
The largest number that will divide into any number evenly is the number itself.
the max remainder you can have when dividing by a number is that number minus 1 So 4 can only have 1, 2 and 3 as remainders. 9 can only have 1-8 and so on.
In division by 5, you can have remainders of 0, 1, 2, 3, and 4. If you count zero, then you can have five possible remainders. If you are not counting zero, then 4 possible remainders.
17,303
It is 13 because it is the HCF of 325 and 221
4
It is 34 because 34 is the largest number that will divide evenly into 1020 and 11594 leaving no remainders
12 13 19
You can divide a given number into an infinite number of other numbers to get different quotients or remainders.
Written as a product of primes, 325 = 5^2 x 13 221 = 13 x 17 Therefore 13 goes into both 325 and 221
It is 75.
75
1 & 2 are the only non-zero remainders you can get from dividing a whole number by 3.
Repeatedly divide by 5 (noting the remainders) until the quotient is zero. Then write the remainders out in reverse order.
1 and 3 will divide into both numbers with no remainders