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Expanding the Cube of a Trinomial: (a + b + c)³
The expansion of (a + b + c)³ is a fundamental concept in algebra, often encountered in various mathematical contexts. Understanding the expansion is crucial for simplifying expressions, solving equations, and working with polynomials.
The Expansion
The expansion of (a + b + c)³ results in a sum of ten terms:
(a + b + c)³ = a³ + b³ + c³ + 3a²b + 3a²c + 3ab² + 3ac² + 3b²c + 3bc² + 6abc
Methods for Expansion
There are two primary methods to arrive at this expansion:
1. Direct Multiplication:
- Begin by multiplying (a + b + c) by itself: (a + b + c) * (a + b + c)
- Then multiply the result by (a + b + c) again: (a² + ab + ac + ba + b² + bc + ca + cb + c²) * (a + b + c)
- Perform the multiplication and combine like terms to get the final result.
2. Binomial Theorem:
- While the binomial theorem directly applies to expansions of the form (x + y)ⁿ, it can be extended to trinomials.
- First, expand (a + b + c) as ((a + b) + c)³.
- Apply the binomial theorem to expand ((a + b) + c)³, treating (a + b) as one term: ((a + b)³ + 3(a + b)²c + 3(a + b)c² + c³)
- Expand each term individually using the binomial theorem again.
Key Points
- The expansion of (a + b + c)³ is a sum of ten terms, each with a specific combination of variables.
- The coefficients of each term are determined by the binomial coefficients.
- The expansion can be obtained through direct multiplication or by using the binomial theorem.
Applications
The expansion of (a + b + c)³ has various applications in different fields:
- Algebra: Simplifying expressions, solving equations, and working with polynomials.
- Calculus: Finding derivatives and integrals of functions involving trinomials.
- Physics: Solving problems related to mechanics, electricity, and magnetism.
- Chemistry: Calculating chemical reactions and determining the concentration of solutions.
Understanding the expansion of (a + b + c)³ provides a strong foundation for various mathematical concepts and applications.