(1-3x)^4 Binomial Expansion

3 min read Jun 16, 2024
(1-3x)^4 Binomial Expansion

Binomial Expansion of (1-3x)^4

The binomial theorem is a powerful tool that allows us to expand expressions of the form (a + b)^n. In this case, we want to expand (1 - 3x)^4.

Understanding the Binomial Theorem

The binomial theorem states that:

**(a + b)^n = a^n + n*a^(n-1)b + (n(n-1)/2!) * a^(n-2)b^2 + ... + b^n

where:

  • n is a positive integer (the power)
  • n! represents the factorial of n (n! = n * (n-1) * (n-2) * ... * 2 * 1)
  • (n(n-1)/2!) represents the binomial coefficient, which is also denoted as n choose 2 or nCr

Expanding (1 - 3x)^4

Let's apply the binomial theorem to our expression:

  1. Identify a and b: In our case, a = 1 and b = -3x.
  2. Determine n: The power is n = 4.

Now, we can plug these values into the binomial theorem formula:

(1 - 3x)^4 = 1^4 + (4 * 1^3 * (-3x)) + (4 * 3 / 2! * 1^2 * (-3x)^2) + (4 * 1 / 3! * 1 * (-3x)^3) + (-3x)^4

Simplifying each term:

  • 1^4 = 1
  • 4 * 1^3 * (-3x) = -12x
  • (4 * 3 / 2! * 1^2 * (-3x)^2) = 54x^2
  • (4 * 1 / 3! * 1 * (-3x)^3) = -108x^3
  • (-3x)^4 = 81x^4

Finally, combining all the terms:

(1 - 3x)^4 = 1 - 12x + 54x^2 - 108x^3 + 81x^4

Conclusion

By applying the binomial theorem, we successfully expanded (1 - 3x)^4 to get 1 - 12x + 54x^2 - 108x^3 + 81x^4. This method can be used to expand any binomial expression raised to a positive integer power.

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