If I was doing this on paper i would use the factor tree method but that would be hard to type.
First you need to find biggest Prime number that is a factor of that number.
In this case 64's biggest prime factor is 2.
Then you need to divide 64 by 2. So 64/2 = 32.
Then repeat the process with the new answer, in this case 32, until you get a prime number.
64/2 = 32
32/2 = 16
16/2 = 8
8/2 = 4
4/2 = 2
2 is prime so stop there.
Then you need to collect up all the number that were the biggest prime factors and multiply them together. You should get 64.
2 * 2 * 2 * 2 * 2 * 2 = 64
So 64 as a product of its prime factors is 2 * 2 * 2 * 2 * 2 * 2 or 26.
multiplicand times multiplier equals product
Numbers in a multiplication problem aren't added. In a multiplication sentence, the multiplicand times the multiplier equals the product.
4 x 59 = 236
There is no property of multiplication that transposes numbers.
The generalisation is that multiplication is Abelian (or commutative) for numbers.
multiplicand times multiplier equals product
multiplicand times multiplier equals product
Multiplicand times multiplier equals product.
multiplicand times multiplier equals product
The product in a multiplication sum is the answer - the numbers in the question are the multiplier and the multiplicand.
Numbers in a multiplication problem aren't added. In a multiplication sentence, the multiplicand times the multiplier equals the product.
A product.
A "balanced" equation.
84x1
2
46*2 = 92
54x1 and 6x9 = 54