The GCF of 52, 143, and 169 is 13.
It is 13
The least common factor is: 1
The least common multiple of 100 , 169 = 16,900
The GCF of 65, 143, and 169 is 13 The factors of 169 are 1, 13, and 169 The factors of 65 are 1, 5, 13, and 65 The factors of 143 are 1, 11, 13, and 143 GCF (169, 65, 143) = 13 Express the numbers' prime composition in power notation and use the lowest power of each prime across the numbers (if a prime does not appear in one of the numbers, its power is 0, since p⁰ = 1): 169 = 13² 65 = 5¹ × 13¹ 143 = 11¹ × 13¹ hcf = 5⁰ × 11⁰ × 13¹ = 1 x 1 x 13 = 13
The GCF of 143 and 169 is 13. One way to determine the common factors and greatest common factor is to find all the factors of the numbers and compare them. The factors of 143 are 1, 11, 13, and 143. The factors of 169 are 1, 13, and 169. The common factors are 1 and 13. Therefore, the greatest common factor is 13.
The GCF of 52, 143, and 169 is 13.
The GCF is 13.
It is 13
To find the greatest common factor (GCF) of 52, 143, and 169, we need to first factorize each number. The factors of 52 are 1, 2, 4, 13, 26, and 52. The factors of 143 are 1, 11, 13, and 143. The factors of 169 are 1, 13, and 169. The common factor among these three numbers is 13, making it the greatest common factor.
The greatest common multiple is an infinite amount and not very practical for problem solving.
It is: 13
The least common factor is: 1
The GCF is 13.
To find the highest common factor (HCF) of 39, 143, and 169, we need to first find the prime factors of each number. The prime factors of 39 are 3 and 13, the prime factors of 143 are 11 and 13, and the prime factors of 169 are 13 and 13. The HCF is the product of the common prime factors raised to the lowest power they appear, which in this case is 13. Therefore, the HCF of 39, 143, and 169 is 13.
The least common multiple of 100 , 169 = 16,900
The GCF of 65, 143, and 169 is 13 The factors of 169 are 1, 13, and 169 The factors of 65 are 1, 5, 13, and 65 The factors of 143 are 1, 11, 13, and 143 GCF (169, 65, 143) = 13 Express the numbers' prime composition in power notation and use the lowest power of each prime across the numbers (if a prime does not appear in one of the numbers, its power is 0, since p⁰ = 1): 169 = 13² 65 = 5¹ × 13¹ 143 = 11¹ × 13¹ hcf = 5⁰ × 11⁰ × 13¹ = 1 x 1 x 13 = 13