84 divided by 7 is 12 with remainder 0
7 goes into 84 twelve times exactly (ie there is no remainder).
Oh, dude, let me break it down for you. So, 12 can go into 84 seven times because 12 times 7 equals 84. And guess what? When you divide 84 by 12, you're left with zero because there's no remainder. It's like a perfect match, man.
88. 12*7=84+4=88
Twelve goes into ninety a total of 7 times, with a remainder. When you divide 90 by 12, the quotient is 7, since 12 multiplied by 7 equals 84. Subtracting 84 from 90 leaves a remainder of 6. Therefore, twelve goes into ninety seven times with a remainder of 6.
84
7 goes into 84 twelve times exactly (ie there is no remainder).
Oh, dude, let me break it down for you. So, 12 can go into 84 seven times because 12 times 7 equals 84. And guess what? When you divide 84 by 12, you're left with zero because there's no remainder. It's like a perfect match, man.
7 goes into 591 84 times with a remainder of 3
88. 12*7=84+4=88
Twelve goes into ninety a total of 7 times, with a remainder. When you divide 90 by 12, the quotient is 7, since 12 multiplied by 7 equals 84. Subtracting 84 from 90 leaves a remainder of 6. Therefore, twelve goes into ninety seven times with a remainder of 6.
84
1, 2, 7 and 14 all divide into both 14 and 84, without leaving a remainder.
4.2
12 goes into 95 7 times
2619, remainder 4
21
May 12 1984 was on a Saturday. For any date in the 1900s, you can figure out the day of the week in 4 steps: • Month #: (in order, the month #s are: 1 4 4 0 2 5 0 3 6 1 4 6) May => 2 • Date #: 12÷7=1 with a remainder of 5 12th => 5 • Year #: 84÷7=12 with a remainder of 0 '84 => 0 • Leap Year #: 84÷4=21, 21÷7=3 with a remainder of 0 '84 => 0 Finally, divide the sum of all (4) numbers by 7: the remainder is the day o the week 7 ÷ 7 = 1, with a remainder of 0, or the day before the first day of the week Sun = 1st day of the week, so this day (5.12.84) was Saturday.