HCF of 92, 68 by Euclid's Divison lemma method can be determined easily by using our free online HCF using Euclid's Divison Lemma Calculator and get the result in a fraction of seconds ie., 4 the largest factor that exactly divides the numbers with r=0.
Highest common factor (HCF) of 92, 68 is 4.
HCF(92, 68) = 4
Ex: 10, 15, 20 (or) 24, 48, 96,45 (or) 78902, 89765, 12345
Below detailed show work will make you learn how to find HCF of 92,68 using the Euclidean division algorithm. So, follow the step by step explanation & check the answer for HCF(92,68).
Here 92 is greater than 68
Now, consider the largest number as 'a' from the given number ie., 92 and 68 satisfy Euclid's division lemma statement a = bq + r where 0 ≤ r < b
Step 1: Since 92 > 68, we apply the division lemma to 92 and 68, to get
92 = 68 x 1 + 24
Step 2: Since the reminder 68 ≠ 0, we apply division lemma to 24 and 68, to get
68 = 24 x 2 + 20
Step 3: We consider the new divisor 24 and the new remainder 20, and apply the division lemma to get
24 = 20 x 1 + 4
We consider the new divisor 20 and the new remainder 4, and apply the division lemma to get
20 = 4 x 5 + 0
The remainder has now become zero, so our procedure stops. Since the divisor at this stage is 4, the HCF of 92 and 68 is 4
Notice that 4 = HCF(20,4) = HCF(24,20) = HCF(68,24) = HCF(92,68) .
Therefore, HCF of 92,68 using Euclid's division lemma is 4.
Here are some samples of HCF using Euclid's Algorithm calculations.
1. What is the HCF(92, 68)?
The Highest common factor of 92, 68 is 4 the largest common factor that exactly divides two or more numbers with remainder 0.
2. How do you find HCF of 92, 68 using the Euclidean division algorithm?
According to the Euclidean division algorithm, if we have two integers say a, b ie., 92, 68 the largest number should satisfy Euclid's statement a = bq + r where 0 ≤ r < b and get the highest common factor of 92, 68 as 4.
3. Where can I get a detailed solution for finding the HCF(92, 68) by Euclid's division lemma method?
You can get a detailed solution for finding the HCF(92, 68) by Euclid's division lemma method on our page.