The GCD of given numbers is 3.
Step 1 :
Divide $ 87 $ by $ 54 $ and get the remainder
The remainder is positive ($ 33 > 0 $), so we will continue with division.
Step 2 :
Divide $ 54 $ by $ \color{blue}{ 33 } $ and get the remainder
The remainder is still positive ($ 21 > 0 $), so we will continue with division.
Step 3 :
Divide $ 33 $ by $ \color{blue}{ 21 } $ and get the remainder
The remainder is still positive ($ 12 > 0 $), so we will continue with division.
Step 4 :
Divide $ 21 $ by $ \color{blue}{ 12 } $ and get the remainder
The remainder is still positive ($ 9 > 0 $), so we will continue with division.
Step 5 :
Divide $ 12 $ by $ \color{blue}{ 9 } $ and get the remainder
The remainder is still positive ($ 3 > 0 $), so we will continue with division.
Step 6 :
Divide $ 9 $ by $ \color{blue}{ 3 } $ and get the remainder
The remainder is zero => GCD is the last divisor $ \color{blue}{ \boxed { 3 }} $.
We can summarize an algorithm into a following table.
87 | : | 54 | = | 1 | remainder ( 33 ) | ||||||||||
54 | : | 33 | = | 1 | remainder ( 21 ) | ||||||||||
33 | : | 21 | = | 1 | remainder ( 12 ) | ||||||||||
21 | : | 12 | = | 1 | remainder ( 9 ) | ||||||||||
12 | : | 9 | = | 1 | remainder ( 3 ) | ||||||||||
9 | : | 3 | = | 3 | remainder ( 0 ) | ||||||||||
GCD = 3 |
This solution can be visualized using a Venn diagram.
The GCD equals the product of the numbers at the intersection.