Answer :
To solve the division problem [tex]\(169 \div 13\)[/tex], you can use long division. Here’s how you can find the solution step-by-step:
1. Set up the division: Place 169 inside the division bracket and 13 outside, as the divisor.
2. Divide the first digit: Look at the first two digits of 169, which is 16. Determine how many times 13 can fit into 16 without exceeding it. The largest whole number that fits is 1 (since 13 x 1 = 13).
3. Subtract and bring down the next digit: Subtract 13 from 16, which leaves you with a remainder of 3. Then bring down the next digit, which is 9, making the new number 39.
4. Divide the new number: Determine how many times 13 fits into 39. That is 3 times, because 13 x 3 = 39.
5. Subtract the remainder: Subtract 39 from 39 to get a remainder of 0.
Since there is nothing left to bring down, the division is complete. The quotient is 13, which means [tex]\(169 \div 13 = 13\)[/tex].
The result of the division is 13, confirming that 169 divided by 13 equals 13.
1. Set up the division: Place 169 inside the division bracket and 13 outside, as the divisor.
2. Divide the first digit: Look at the first two digits of 169, which is 16. Determine how many times 13 can fit into 16 without exceeding it. The largest whole number that fits is 1 (since 13 x 1 = 13).
3. Subtract and bring down the next digit: Subtract 13 from 16, which leaves you with a remainder of 3. Then bring down the next digit, which is 9, making the new number 39.
4. Divide the new number: Determine how many times 13 fits into 39. That is 3 times, because 13 x 3 = 39.
5. Subtract the remainder: Subtract 39 from 39 to get a remainder of 0.
Since there is nothing left to bring down, the division is complete. The quotient is 13, which means [tex]\(169 \div 13 = 13\)[/tex].
The result of the division is 13, confirming that 169 divided by 13 equals 13.
