What is the Least Common Multiple of 490 and 498?
Least common multiple or lowest common denominator (lcd) can be calculated in two way; with the LCM formula calculation of greatest common factor (GCF), or multiplying the prime factors with the highest exponent factor.
Least common multiple (LCM) of 490 and 498 is 122010.
LCM(490,498) = 122010
Least Common Multiple of 490 and 498 with GCF Formula
The formula of LCM is LCM(a,b) = ( a × b) / GCF(a,b).
We need to calculate greatest common factor 490 and 498, than apply into the LCM equation.
GCF(490,498) = 2
LCM(490,498) = ( 490 × 498) / 2
LCM(490,498) = 244020 / 2
LCM(490,498) = 122010
Least Common Multiple (LCM) of 490 and 498 with Primes
Least common multiple can be found by multiplying the highest exponent prime factors of 490 and 498. First we will calculate the prime factors of 490 and 498.
Prime Factorization of 490
Prime factors of 490 are 2, 5, 7. Prime factorization of 490 in exponential form is:
490 = 21 × 51 × 72
Prime Factorization of 498
Prime factors of 498 are 2, 3, 83. Prime factorization of 498 in exponential form is:
498 = 21 × 31 × 831
Now multiplying the highest exponent prime factors to calculate the LCM of 490 and 498.
LCM(490,498) = 21 × 51 × 72 × 31 × 831
LCM(490,498) = 122010
Related Least Common Multiples of 490
- LCM of 490 and 494
- LCM of 490 and 495
- LCM of 490 and 496
- LCM of 490 and 497
- LCM of 490 and 498
- LCM of 490 and 499
- LCM of 490 and 500
- LCM of 490 and 501
- LCM of 490 and 502
- LCM of 490 and 503
- LCM of 490 and 504
- LCM of 490 and 505
- LCM of 490 and 506
- LCM of 490 and 507
- LCM of 490 and 508
- LCM of 490 and 509
- LCM of 490 and 510
Related Least Common Multiples of 498
- LCM of 498 and 502
- LCM of 498 and 503
- LCM of 498 and 504
- LCM of 498 and 505
- LCM of 498 and 506
- LCM of 498 and 507
- LCM of 498 and 508
- LCM of 498 and 509
- LCM of 498 and 510
- LCM of 498 and 511
- LCM of 498 and 512
- LCM of 498 and 513
- LCM of 498 and 514
- LCM of 498 and 515
- LCM of 498 and 516
- LCM of 498 and 517
- LCM of 498 and 518