What is the Least Common Multiple of 667 and 682?
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 667 and 682 is 454894.
LCM(667,682) = 454894
Least Common Multiple of 667 and 682 with GCF Formula
The formula of LCM is LCM(a,b) = ( a × b) / GCF(a,b).
We need to calculate greatest common factor 667 and 682, than apply into the LCM equation.
GCF(667,682) = 1
LCM(667,682) = ( 667 × 682) / 1
LCM(667,682) = 454894 / 1
LCM(667,682) = 454894
Least Common Multiple (LCM) of 667 and 682 with Primes
Least common multiple can be found by multiplying the highest exponent prime factors of 667 and 682. First we will calculate the prime factors of 667 and 682.
Prime Factorization of 667
Prime factors of 667 are 23, 29. Prime factorization of 667 in exponential form is:
667 = 231 × 291
Prime Factorization of 682
Prime factors of 682 are 2, 11, 31. Prime factorization of 682 in exponential form is:
682 = 21 × 111 × 311
Now multiplying the highest exponent prime factors to calculate the LCM of 667 and 682.
LCM(667,682) = 231 × 291 × 21 × 111 × 311
LCM(667,682) = 454894
Related Least Common Multiples of 667
- LCM of 667 and 671
- LCM of 667 and 672
- LCM of 667 and 673
- LCM of 667 and 674
- LCM of 667 and 675
- LCM of 667 and 676
- LCM of 667 and 677
- LCM of 667 and 678
- LCM of 667 and 679
- LCM of 667 and 680
- LCM of 667 and 681
- LCM of 667 and 682
- LCM of 667 and 683
- LCM of 667 and 684
- LCM of 667 and 685
- LCM of 667 and 686
- LCM of 667 and 687
Related Least Common Multiples of 682
- LCM of 682 and 686
- LCM of 682 and 687
- LCM of 682 and 688
- LCM of 682 and 689
- LCM of 682 and 690
- LCM of 682 and 691
- LCM of 682 and 692
- LCM of 682 and 693
- LCM of 682 and 694
- LCM of 682 and 695
- LCM of 682 and 696
- LCM of 682 and 697
- LCM of 682 and 698
- LCM of 682 and 699
- LCM of 682 and 700
- LCM of 682 and 701
- LCM of 682 and 702