The simplest rationalizing factor of √500
WebThe rationalizing factor of (a+ b) is A a− b B a−b C a− b D None of these Easy Solution Verified by Toppr Correct option is A) The rationalizing factor of a+ b is a- b as the product of these two expressions give a rational number. Was this answer helpful? 0 0 Similar questions Rationalise: 4+ 5 Easy View solution > WebLas protecciones eléctricas tienen un papel relevante en la seguridad y en la adecuada operación de un sistema eléctrico de potencia. Particularmente, en el caso de la generación y el trasporte, por su importancia requieren un eficiente sistema de protecciones que permita garantizar la integridad de sus elementos y la continuidad del servicio eléctrico.
The simplest rationalizing factor of √500
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WebAnswer (1 of 5): What is the rationalisation factor of \sqrt{3}\text{?} You can’t rationalise an irrational number and \sqrt{3} is an irrational number. However, if \sqrt{3} is in the expression of the denominator of a fraction, then there are cases where that expression can be rationalised. T... WebDec 2, 2024 · In the expression, rationalizing factor of denominator that would be √3 – 1. Multiplying and dividing the rationalizing factor of denominator, = (√3 – 1)/ (√3 + 1) × (√3 – 1)/ (√3 – 1) = (√3 – 1) 2 / (√3) 2 – 1 By the formula (a – b)2 = a2 – 2ab + b2 = (√3) 2 – 2√3 × 1 + (1) 2 / (3 – 1) = 4 – 2√3/2 Taking 2 in common in numerator = 2 (2 – √3)/2
WebSimplest rationalizing factor of √3 + √5 1/ (√3+√5) = √3-√5 9. Question The simplest rationalising factor of 2√5 - √3 is A. 2 +3 B. 2 + C. D. Answer Simplest rationalizing factor of 2√5 - √3 = 1/(2√5 - √3) = 2√5 + √3 10. Question If x = , then (x -3)2 = A. 1 B. 3 C. 6 WebWe know that rationalization factor for `sqrta +sqrtb ` is . `sqrta -sqrtb` Hence rationalization factor of `sqrt3 +sqrt5`. Concept: Laws of Exponents for Real Numbers
Webthe simplest rationalizing factor of root 5- root 2 for Class 9 2024 is part of Class 9 preparation. The Question and answers have been prepared according to the Class 9 exam syllabus. Information about the simplest rationalizing factor of root 5- root 2 covers all topics & solutions for Class 9 2024 Exam. WebStep-by-step explanation: Cube root of 500 = cube root of (5 x 5 x 5 x 2 x 2) = 5 x cube root of (2 x 2) Hence to rationalize cube root of 500, we require another cube root of 2 i.e., 2 ^1/3. Hence the simplest rationalising factor of cube root of 500 is cube root of 2. Advertisement New questions in Math Add the following algebric expression
Web The simplest rationalisation factor of 3√500 is (a) √5 (b) √3 (c) 3√5 (d) 3√2 Please scroll down to see the correct answer and solution guide. Right Answer is: SOLUTION 3√500 = = …
WebThe simplest rationalising factor of √ (500) is Class 9 >> Maths >> Number Systems >> Rationalisation >> The simplest rationalising factor of √ (5 Question The simplest … slurping coffee memeWebGiven that: `3sqrt500` To find simplest rationalizing factor of the given expression we will factorize it as `3sqrt500 = 3sqrt(125xx 4)` `= 3sqrt(5xx5xx5xx 4)` `= 3sqrt((5))^3 xx … solar led lights for fenceWebThe Square Root of: The Work. 32 16 ⋅ 2 16 2 4 2. 32 ≈ 5.656854249492381. (This link will show the same work that you can see on this page) You can calculate the square root of any number , just change 32 up above in the textbox. slurping sound effect downloadWebThe correct option is C3√23√500 = 3√2×2×5×5×5Making triplet, we find 2 is required to complete the triplet of 2∴ Required factor = 3√2. solar led lights for outsideslurping is good manners in what countryWebThe simplest rationalising factor of √3+√5 is A √3−5 B 3−√5 C √3−√5 D √3+√5 Solution The correct option is D √3−√5 The simplest rationalising factor of √3+√5 is √3−√5 as (√a+√b)(√a−√b) =a−b. Suggest Corrections 21 Similar questions Q. The simplest rationalising factor of 2√5−√3 is Q. The simplest rationalising factor of 3 + 5 is (a) 3 - 5 (b) … solar led lights with circle standWebApr 17, 2024 · Calculation: Rationalising factor : If the product of two surds is a rational number, then each of them is called as a rationalising factor Let ‘x’ be the rationalising factor of 7-3√5 => (7-3√5) (x) = Rational number Suppose x = 7+3√5, then we get => (7-3√5) (7+3√5) = 49-9 (5) = 49-45 = 4 4 is a rational number. solar led mailbox light