560 = 1 x 560, 2 x 280, 4 x 140, 5 x 112, 7 x 80, 8 x 70, 10 x 56, 14 x 40, 16 x 35, 20 x 28, 28 x 20, 35 x 16, 40 x 14, 56 x 10, 70 x 8, 80 x 7, 112 x 5, 140 x 4, 280 x 2, 560 x 1.
560 is one such.
To find the factors of 560 where the middle term is -24, we can express the equation in the form of (x^2 + mx + n = 0), where (m) is the middle term and (n) is the product of the factors. The factors of 560 that also add up to -24 are -14 and -40, since (-14 + (-40) = -24) and (-14 \times -40 = 560). Thus, the required factors are -14 and -40.
The difference is between factor pairs and distinct factors. With square numbers, one of the factor pairs will be the same number twice. When listing the distinct factors, that number is only listed once.
1,24
Pairs with common factors other than 1.
560 is one such.
2, 5, and 7 are the prime factors of 560 24 * 5 * 7 = 560
The factors of 560 are 1, 2, 4, 5, 7, 8, 10, 14, 16, 20, 28, 35, 40, 56, 70, 80, 112, 140, 280, and 560.
The factor pairs of 560 are: 1 × 560 2 × 280 4 × 140 5 × 112 7 × 80 8 × 70 10 × 56 14 × 40 16 × 35 20 × 28
If pairs of factors separate independently of other pairs of factors, you are dealing with the: Law of independent assortment
3 pairs
These are the factor pairs:1750,1875,2350,5250,7175,10125,1470,2550,35
Factors go in pairs; prime factors are listed least to greatest. 2, 3 and 11
Factors: 1, 3, 9, 27. Pairs: (1,27);(3,9).
560,1 280,2 140,4 112,5 80,7 70,8 56,10 40,14 35,16 28,20
The GCF of 49 and 560 is 7.The factors of 49 are 1 x 49 and 7 x 7.The factors of 560 are 1 x 560, 2 x 280, 4 x 140, 5 x 112, 7 x 80, 8 x 70, 10 x 56, 14 x 40, 16 x 35, and 20 x 28.The only common factors are 1 and 7, so the greatest common factor of 49 and 560 is 7.
The factors of 560 are 1, 2, 4, 5, 7, 8, 10, 14, 16, 20, 28, 35, 40, 56, 70, 80, 112, 140, 280, and 560.