1 x 24
2 x 12
3 x 8
4 x 6
The factors of 3 are 1 and 3. Put three blocks in one row.
Four
6
Multiplying the highest prime factors it is: 72
The factors of 24 are 1,2,3,4,6,8,12 and 24. For them to be common, they need to be compared to another set of factors.
1 x 24 2 x 12 3 x 8 4 x 6
1 x 10 2 x 5
You can show 24 cans in one row, 12 cans in 2 rows, 8 cans in 3 rows, and 6 cans in 4 rows.
6
The factors of 3 are 1 and 3. Put three blocks in one row.
Well, honey, let me break it down for you. To form a rectangular array, you need to find pairs of factors of 24. So, 1 x 24, 2 x 12, 3 x 8, and 4 x 6. That's a total of 4 rectangular arrays you can make with 24 tiles. Math can be sassy too, you know!
Think of the chairs as arrays. The dimensions of the arrays give you the factors of 18.
Four
The number of factors of a given number corresponds to the different ways that number can be expressed as a product of two integers, which represents the possible dimensions of rectangular arrays. For instance, if a number has six factors, it can be arranged into rectangular arrays of dimensions that multiply to that number, such as 1x6, 2x3, and 3x2. Each unique pair of factors gives a distinct arrangement, illustrating the relationship between factors and rectangular arrays. Thus, the total number of factors directly determines the number of unique rectangular configurations possible for that number.
No, but factors can.
Arrays are drawings or doodles that can show you a multiplication.
Sir, your question is not clear. If you just want to multiply 3 and 24 then why are you trying to use arrays for such simple calculation.