123 = 31 x 411
Each composite number has one distinct prime factorization. 3 x 41 = 123
The prime factors of 123 are 3 and 41.123 = 3 * 41
Factor trees may have been used when you were in elementary school--when you take a number and see what numbers "go into" it by making branches. Prime factorization is simply just a more sophisticated (and kind of easier) way of seeing what PRIME numbers go into a number. To do that, you must divide only use prime divisors. You keep dividing until the last number is 1. Then, using the divisors you've used, you create a multiplication problem, usually with exponents. For example, you have to do the prime factorization of 20. You choose to divide by the prime number 2, which is 10. You divide 10 by 2 which equals 5, and then you divide by 5 equaling one. Therefore, the prime factorization of 20 is 2 squared times 5.
3 and 41
To get multiples of 123, just calculate: 123 x 0 123 x 1 123 x 2 etc. Also: 123 x (-1) 123 x (-2) etc.
3 x 41 = 123
Each composite number has one distinct prime factorization. 3 x 41 = 123
3 x 41 = 123
123 = 3 x 41
Not sure about wrighting anything, but you could write it as 123*100 except that is NOT the exponential form.
Prime factorization is factoring a number down to its prime numbers.Example: Prime factorization of 12 :123 x 43 x 2 x 2^ That is a factor treewhich shows theprime factorization
123 = 3 x 41
As a product of its prime factors: 7*19*31 = 4123
The prime factors of 4123 are 7, 19 and 31
1.23456789 x 108
The 4 factors of 123 are 1, 3, 41, and 123.The factor pairs of 123 are 1 x 123 and 3 x 41.The proper factors of 123 are 1, 3, and 41 or,if the definition you are using excludes 1, they are 3 and 41.The prime factors of 123 are 3 and 41.The distinct prime factors of 123 are, since there is no repetition of prime factors, also 3 and 41.The prime factorization of 123 are 3 x 41.
3 x 41 = 123 2 x 3 x 3 x 13 = 234 2 x 3 x 3 x 13 x 41 = 9594, the LCM