(a+b)^9 Formula

4 min read Jun 16, 2024
(a+b)^9 Formula

(a + b)^9: The Binomial Theorem Explained

The expansion of (a + b)^9 is a classic example of the Binomial Theorem, a powerful tool for expanding expressions of the form (x + y)^n. Let's break down how it works.

The Binomial Theorem

The Binomial Theorem states that for any real numbers 'a' and 'b' and any non-negative integer 'n':

(a + b)^n = (n choose 0)a^n + (n choose 1)a^(n-1)b + (n choose 2)a^(n-2)b^2 + ... + (n choose n-1)ab^(n-1) + (n choose n)b^n

Where (n choose k) represents the binomial coefficient, calculated as:

(n choose k) = n! / (k! * (n-k)!)

This formula might look intimidating at first, but it's easier to understand with an example.

Expanding (a + b)^9

Let's apply the Binomial Theorem to expand (a + b)^9:

  1. Identify 'n': In our case, n = 9.
  2. Calculate the binomial coefficients:
    • (9 choose 0) = 9! / (0! * 9!) = 1
    • (9 choose 1) = 9! / (1! * 8!) = 9
    • (9 choose 2) = 9! / (2! * 7!) = 36
    • ... and so on, following the pattern.
  3. Apply the formula: (a + b)^9 = 1a^9 + 9a^8b + 36a^7b^2 + 84a^6b^3 + 126a^5b^4 + 126a^4b^5 + 84a^3b^6 + 36a^2b^7 + 9ab^8 + 1b^9

Therefore, the expanded form of (a + b)^9 is:

(a + b)^9 = a^9 + 9a^8b + 36a^7b^2 + 84a^6b^3 + 126a^5b^4 + 126a^4b^5 + 84a^3b^6 + 36a^2b^7 + 9ab^8 + b^9

Key Observations

  • The expansion has (n + 1) terms.
  • The powers of 'a' decrease from 'n' to 0, while the powers of 'b' increase from 0 to 'n'.
  • The sum of the exponents in each term is always equal to 'n'.
  • The binomial coefficients follow a pattern known as Pascal's Triangle.

Applications of the Binomial Theorem

The Binomial Theorem has numerous applications in various fields including:

  • Algebra: Simplifying complex algebraic expressions.
  • Calculus: Finding derivatives and integrals of binomial functions.
  • Probability: Calculating probabilities in binomial distributions.
  • Statistics: Deriving formulas for statistical distributions.

Understanding the Binomial Theorem is fundamental for advanced mathematics and provides a powerful tool for solving various problems across different disciplines.

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