142 = 21 x 711
142/2 = 71/71 = 1 2 x 71 = 142
It is: 2*71 = 142
No, 426 is not a prime number. It is divisible by 2, 3, 6, 9, 142, and 213.
Composite. It is an even number after all, so the factor 2 is a given.
1. 13 is a prime number, so it has only 1 and 13 as its factors, and 142 can't be divided by 13, so the GCF here is 1.
142 = 2 * 71
142/2 = 71/71 = 1 2 x 71 = 142
142 = 2 x 71
2 * 71 = 142 both 2 and 71 are prime
2, 71
142 is a composite number; it has factors other than 1 and itself.The four factors of 142 are 1, 2, 71, 142.The factor pairs of 142 are 1 x 142 and 2 x 71.The proper factors of 142 are 1, 2, and 71 or,if the definition you are using excludes 1, they are 2 and 71.The prime factors of 142 are 2 and 71The distinct prime factors of 142 are also 2 and 71 since there is no repetition of factors.The prime factorization of 142 is 2 x 71.
prime factors
Start with the prime factorization. 2 x 71 = 142 Any number with two distinct prime factors has four factors in total. Since it's automatic that one and the number itself are included, you have them all. 1, 2, 71, 142
Prime Factorization of 24 and 56Prime factorization of 24 is:2 X 122 X 2 X 62 X 2 X 2 X 3The prime factorization of 56 is:2 X 282 X 2 X 142 X 2 X 2 X 7
Factor trees, ladders, fireworks, rainbows... They're all the same thing. A way to display the prime factors of a given number. The prime factorization of 142 is 2 x 71. Arrange the 2 and the 71 however you wish.
In order to get three prime numbers to add up to an even number, one of them will have to be even. The only even prime number is 2.144 - 2 = 142.You need to find 2 prime numbers that can add up to 142. 71 is prime and added to itself will be 142, but that won't give you three different prime numbers.Use a list of prime numbers and subtract each prime that is greater than 71 (fewer than primes less than 71) from 142 to see if the difference is another prime:142 - 73 = 69 (not prime)142 - 79 = 63 (not prime)142 - 83 = 59 (prime)142 - 89 = 53 (prime)142 - 97 = 45 (not prime)142 - 101 = 41 (prime)142 - 103 = 39 (not prime)142 - 107 = 35 (not prime)142 - 109 = 33 (not prime)142 - 113 = 29 (prime)142 - 127 = 15 (not prime)142 - 131 = 11 (prime)142 - 137 = 5 (prime)142 - 139 = 3 (prime)You end up with 7 sets of 3 prime numbers that add up to 144:2, 59, 832, 53, 892, 41, 1012, 29, 1132, 11, 1312, 5, 1372, 3, 139
3124 is a composite number because it has factors other than 1 and itself. It is not a prime number.The 12 factors of 3124 are 1, 2, 4, 11, 22, 44, 71, 142, 284, 781, 1562, and 3124.The factor pairs of 3124 are 1 x 3124, 2 x 1562, 4 x 781, 11 x 284, 22 x 142, and 44 x 71.The proper factors of 3124 are 1, 2, 4, 11, 22, 44, 71, 142, 284, 781, and 1562 or,if the definition you are using excludes 1, they are 2, 4, 11, 22, 44, 71, 142, 284, 781, and 1562.The prime factors of 3124 are 2, 2, 11, and 71. Note: There is repetition of these factors, so if the prime factors are being listed instead of the prime factorization, usually only the distinct prime factors are listed.The 3 distinct prime factors (listing each prime factor only once) of 3124 are 2, 11, and 71.The prime factorization of 3124 is 2 x 2 x 11 x 71 or, in index form (in other words, using exponents), 22 x 11 x 71.NOTE: There cannot be common factors, a greatest common factor, or a least common multiple because "common" refers to factors or multiples that two or more numbers have in common.