Govt Exams
Using the formula: HCF × LCM = Product of two numbers.
Therefore, 12 × LCM = 2160, so LCM = 2160 ÷ 12 = 180.
Let numbers be 12a and 12b where HCF(a,b)=1. LCM = 12ab = 240, so ab = 20.
Numbers: 12a and 12b with |12a - 12b| = 12, so |a - b| = 1.
If a=4, b=5: numbers are 48 and 60.
Check: 48-60 = -12 (difference is 12).
Need to find LCM of 8, 12, 16. 8 = 2³, 12 = 2² × 3, 16 = 2⁴. LCM = 2⁴ × 3 = 48 minutes.
So they ring again at 12:00 + 48 min = 12:48 PM.
This question asks us to find the least common multiple (LCM) of two numbers using prime factorization.
Break 84 into its prime factors by dividing by smallest primes.
Break 140 into its prime factors by dividing by smallest primes.
LCM is found by taking the highest power of each prime factor that appears in either number.
The LCM of 84 and 140 is 420, which is option (A).
100 = 2² × 5², 150 = 2 × 3 × 5², 200 = 2³ × 5².
Common factors: 2¹ × 5² = 2 × 25 = 50.
Using formula: HCF × LCM = Product of two numbers. 8 × 96 = 24 × x. 768 = 24x. x = 32.
36 = 2² × 3², 48 = 2⁴ × 3. HCF = 2² × 3 = 12, LCM = 2⁴ × 3² = 144.
Product = 36 × 48 = HCF × LCM = 12 × 144 = 1728.
This question asks us to find the Least Common Multiple (LCM) of two numbers using prime factorization.
Break 15 into its prime factors.
Break 25 into its prime factors.
The LCM is found by taking the highest power of each prime that appears in either factorization: 3¹ and 5².
The LCM of 15 and 25 is 75.
This question asks us to find the Highest Common Factor (HCF) of two numbers using prime factorization or the Euclidean algorithm.
Express 56 as a product of prime numbers.
Express 72 as a product of prime numbers.
The HCF is the product of common prime factors with their lowest powers.
The HCF of 56 and 72 is 8, making the correct answer (B).
Prime factorization: 12 = 2² × 3, 18 = 2 × 3². LCM = 2² × 3² = 4 × 9 = 36 (taking highest powers of all prime factors).