Use the extended Euclidean algorithm to find the greatest common divisor of 9,090 and 936 and express it as a linear combination of 9,090 and 936.Step 1: Find ₁ and ₁ so that9,090 = 936 9₁+₁, where 0 ≤r₁ < 936.Then 1 = 9,090 - 936 9₁ =Step 2: Find 92 and r₂ so that936 = ₁.9₂ +r₂, where 0≤r₂ <1Then= 936-2•92Step 3: Find 93 and r3 so thatr₁ = r₂ 93 +r3, where 0≤r3

Answered: Image /qna-images/answer/af77456f-c793-4d6b-97bd-40f14af5275a.jpg

Answered: Use the extended Euclidean algorithm to…

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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Use the column-addition algorithm to compute 357 + 454. Apply the column-addition algorithm. (Simplify your answers.) hundreds tens ones 3 7 + 4 Add the numbers in each column. Regroup ten 1s to the tens columns. Regroup ten 10s to the hundreds column.
i just need help in the step 6 and conclusion. im not sure how to start it.
Compute the greatest common divisor gcd⁡(1235,455) by hand.
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(a) Find an imverse for 73 modulo 660. First use the extended Euclidean algorithm to find the greatest common divisor of 660 and 73 and express it as a linear combination of 660 and 73. Step 1: Find q, and r, so that 660 - 73 - 9, +r where Osr, <73. Then r, - 660 - 73 - 4, - Step 2: Find q, and r, so that 73 -92 + where 0sr, Then r- 73 - Step 3: Find q, and r, so that -2 43+ ra where 0sr Then r,- Step 4: Select the correct statement from the options below. O Because r - 0, god (660, 73) - 73 - -1. O Becauser- a, god (660, 73) -,- - 1. O Because r, - 1, god (660, 73) - 73 -r, 9-0. O Because r- 1, god (660, 73) --73 - 92-0. O Becauser- 1, god (660, 73) -1- -0. Next, substitute numerical values backward throuch the preceding steps, simplifying the results for each step, to find god (660, 73) - 1- 660s + 73t, where s- and t- =1 (mod 660), and so is an inverse for 73 modulo 660. It follows that 73 (b) Find the least positive solution for the congruence: 73x = 125 (mod 660). Step 1: By part…
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