Real Numbers
Board: GSEB | Class: Std 10
Comprehensive study notes for Real Numbers by Ajay Yadav (Math King of Katargam). Master every concept with clear explanations, solved examples, and practice problems.
Key Concepts
Euclid's Division Lemma
For any positive integers a and b, there exist unique whole numbers q and r such that a = bq + r where 0 ≤ r < b. This is the foundation of the Euclidean algorithm.
Euclid's Division Algorithm
To find HCF of two numbers: (1) Apply division lemma to get a = bq + r. (2) If r = 0, HCF = b. (3) Otherwise, apply to (b, r). (4) Repeat until remainder is 0. The last divisor is the HCF.
Fundamental Theorem of Arithmetic
Every composite number can be expressed as a unique product of primes (up to order). For example, 32760 = 2³ × 3² × 5 × 7 × 13.
Irrational Numbers
A number that cannot be expressed as p/q where p, q are integers and q ≠ 0. Examples: √2, √3, π. The proof that √2 is irrational uses the contradiction method.
Rational Numbers and Decimal Expansions
If the denominator has only prime factors 2 and/or 5, the decimal expansion terminates. Otherwise, it repeats (recurring). The length of the repeating block divides (q-1).
LCM and HCF using Prime Factorization
For two numbers: HCF × LCM = a × b. HCF = product of common prime factors with smallest powers. LCM = product of all prime factors with largest powers.
Important Formulas
| Division Lemma | a = bq + r, 0 ≤ r < b |
| HCF × LCM | HCF(a,b) × LCM(a,b) = a × b |
| Prime Factorization | Every composite = product of primes (unique) |
| Irrational Proof | Assume √p = a/b (reduced), square both sides, contradiction |
Solved Examples
Example 1: Find HCF of 56 and 72 using Euclid’s algorithm.
Solution: 72 = 56 × 1 + 16. 56 = 16 × 3 + 8. 16 = 8 × 2 + 0. HCF = 8.
Example 2: Express 729 as product of primes.
Solution: 729 = 3 × 243 = 3 × 3 × 81 = 3&sup6;. So 729 = 3&sup6;.
Example 3: Prove that √3 is irrational.
Solution: Assume √3 = p/q (reduced). Then 3q² = p². So p is divisible by 3 ⇒ p = 3k. Then 3q² = 9k² ⇒ q² = 3k². So q is divisible by 3. Contradiction as p/q was reduced. Hence √3 is irrational.
Practice Questions
- Find HCF of 135 and 225 using Euclid’s algorithm.
- Find LCM and HCF of 12, 15, 21 using prime factorization.
- Prove that √5 is irrational.
- Without dividing, check if 51/150 has a terminating decimal expansion.
- Show that 3√2 is irrational.
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