You can only do multiplation so a whole number is divisble by another whole number when the quotient is a whole number and the remainder is 0
Think of the chairs as arrays. The dimensions of the arrays give you the factors of 18.
Assuming you want a rectangular array, 1 x 18, 2 x 9, or 3 x 6.
450 dollars
Oh, dude, math time! So, if they pay 18 for 12 dozen buttons, that's like 1.5 per dozen. If 1 dozen costs 1.5, then 4 dozen would cost 6. So, like, 4 dozen buttons would cost 6.
7x9 is the multiplication fact that can be found using the arrays 2x9 and 5x9.
Think of the chairs as arrays. The dimensions of the arrays give you the factors of 18.
Oh, dude, there are like a bazillion different arrays you can make with 18. Okay, maybe not a bazillion, but definitely a lot. You can have arrays like [1, 2, 3, 4, 5, 6], [18], [9, 9], or even [2, 9, 7]. The possibilities are endless... well, not really, but you get the point.
Assuming you want a rectangular array, 1 x 18, 2 x 9, or 3 x 6.
Jasmine puts 18 hats away she puts a eq number of hats on 3 shelves
To use arrays to show breaking apart for the product of 18 and 12, you can first decompose one of the numbers, such as 12, into smaller, more manageable parts, like 10 and 2. Then, create two separate arrays: one with 18 rows and 10 columns, and another with 18 rows and 2 columns. By calculating the area of each array (18 × 10 = 180 and 18 × 2 = 36) and then adding the two products together (180 + 36), you find the total product of 18 and 12, which is 216.
Buttons Briggs died February 18, 1911, in Cleveland, OH, USA.
The multiplication fact (singular, not plural 'facts') that can be found is 7x9 = 63. Using the arrays, a 2x9 array (2 rows of 9 items) and 5x9 array (5 rows of 9 items) is 63: 2x9 = 18 5x9 = 45 18 + 45 = 63
450 dollars
You, can't.
18
Oh, dude, math time! So, if they pay 18 for 12 dozen buttons, that's like 1.5 per dozen. If 1 dozen costs 1.5, then 4 dozen would cost 6. So, like, 4 dozen buttons would cost 6.
7x9 is the multiplication fact that can be found using the arrays 2x9 and 5x9.