Find the hcf of 85 and 153 answer
WebMay 21, 2024 · Step-by-step explanation: To find the HCF of 85 and 153, we shall find it by Euclid's Division Lemma. Since the remainder is not equal to zero, we shall again apply … WebFind the HCF of 85 and 153. Question Gauthmathier7317 Grade 10 · 2024-06-06 Good Question (153) Gauth Tutor Solution Emma University of Illinois Chicago Tutor for 4 …
Find the hcf of 85 and 153 answer
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WebSep 18, 2016 · Best Answer Copy hcf (85, 153) = 17 85 = 5 x 17 153 = 3² x 17 hcf = 17 Wiki User ∙ 2016-09-18 13:58:44 This answer is: Add a Comment Study guides Algebra 20 cards A polynomial of... Web1. Find the HCF of 85 and 153 and Express it in the form of 85x + 153y. NTR Maths 2.24K subscribers Subscribe 1.2K views 11 months ago NTR CLASSES #hcflcm #hcf …
WebAnswer: HCF of 85 and 153 is 17. Explanation: The HCF of two non-zero integers, x(85) and y(153), is the highest positive integer m(17) that divides both x(85) Improve your math performance. If you want to improve your math performance, here's one simple tip: practice, practice, practice. By doing lots of math problems, you'll gradually get ... WebSteps to find GCF. Find the prime factorization of 85. 85 = 5 × 17. Find the prime factorization of 153. 153 = 3 × 3 × 17. To find the GCF, multiply all the prime factors common to both numbers: Therefore, GCF = 17. MathStep (Works offline) Download our mobile app and learn how to find GCF of upto four numbers in your own time:
WebQuestion If the HCF of 85 and 153 is expressible in the form 85n − 153, then value of n is : A 3 B 2 C 4 D 1 Easy Solution Verified by Toppr Correct option is B) HCF of 85 and 153=17 Now given HCf can be expressed in the gorm of 85n−153 So 17=85n−173 On solving the above equation we get n=2 So correct answer will be option B WebSolution: Given numbers are 30 and 42. For finding the HCF of given numbers by division method, you need to take a large number i.e., 42 as dividend and a small number ie., 30 as a divisor. Now, divide 42 by 30 …
WebThe HCF of 85 and 153 is 17. The Highest Common Factor (HCF) of two or more numbers is the largest number among all the common factors of the given numbers. The factors of 85 and 153 are 1, 5, 17, 85, and 1, 3, 9, 17, 51, 153, respectively. ... The answer to the equation is 4. 3. Get calculation assistance online If you need help with your math ...
WebCalculate the GCF, GCD or HCF and see work with steps. Learn how to find the greatest common factor using factoring, prime factorization and the Euclidean Algorithm. The greatest common factor of two or more whole … raic integratedWebStep 1 : Find the HCF of 85 and 153. Using Euclid’s division algorithm, 153 = 85 × 2 + 68 ⇒ 85 = 68 × 1 + 17 ⇒ 68 = 17 × 4 + 0 Since the remainder has come to zero so the H.C.F. … raic foundationWebWhat is the GCF of 51 and 85? The answer is 17. Get the stepwise instructions to find GCF of 51 and 85 using prime factorization method. ... Find hcf of: 102 & 170 153 & 255 255 & 425 357 & 595 102 & 85 51 & 170 153 & 85 51 & 255 255 & 85 51 & 425 357 & 85 51 & 595. GCF Calculator. ... (GCF) is also known as greatest common divisor (GCD) or ... raic ontarioWebApr 12, 2024 · The HCF of two numbers is 16 and their product is 3 Solution For og 310N Su07 0) I Real Numbers Exercise 1.2 Type-1 Very Short Answer Type Questions 1. If HCF (99, 153)=9, then find LCM (99, 153) - 2. raic formsWebOct 4, 2024 · This answer is: Continue Learning about Other Math What is the highest common factor of 85 and 153? hcf (85, 153) = 17 85 = 5 x 17 153 = 3² x 17 hcf = 17 … raic pass colorsWebAnswer: If the HCF of 85 and 153 is expressible in the form of 85m -153, the value of m is 2. HCF of 85 and 153 is the highest number that divides 85 and 153 exactly leaving the remainder 0. Explanation: We are using the division method to find the HCF of 85 and 153. The steps to find the HCF(85, 153) by long division are mentioned below. Step ... raic integrated spongeWebFollow the below steps to find the HCF of given numbers with Euclid’s Division Lemma: Step 1: Apply Euclid’s division lemma, to a and b. So, we find whole numbers, q and r such that a = bq + r, 0 ≤ r < b. Step 2: If r = 0, b is the HCF of a and b. If r ≠ 0, apply the division lemma to b and r. raic journal archives