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The Cube of a Binomial: (x + y)³
In algebra, (x + y)³ represents the cube of a binomial, which is a polynomial with two terms, x and y. This expression can be expanded using the binomial theorem or by applying the distributive property. Let's explore both methods:
Expanding using the Binomial Theorem
The binomial theorem provides a general formula for expanding any binomial raised to a power:
(x + y)ⁿ = ∑(n choose k) * xⁿ⁻ᵏ * yᵏ
Where:
- n is the power to which the binomial is raised.
- k ranges from 0 to n.
- (n choose k) is the binomial coefficient, calculated as n!/(k!(n-k)!).
Applying this to (x + y)³, we get:
(x + y)³ = (3 choose 0) * x³ * y⁰ + (3 choose 1) * x² * y¹ + (3 choose 2) * x¹ * y² + (3 choose 3) * x⁰ * y³
Simplifying the binomial coefficients:
(x + y)³ = x³ + 3x²y + 3xy² + y³
Expanding using the Distributive Property
We can also expand (x + y)³ by repeatedly applying the distributive property:
(x + y)³ = (x + y) * (x + y) * (x + y)
First, expand the first two factors:
(x + y) * (x + y) = x² + 2xy + y²
Now, multiply this result by (x + y):
(x² + 2xy + y²) * (x + y) = x³ + 2x²y + xy² + x²y + 2xy² + y³
Combining like terms:
(x + y)³ = x³ + 3x²y + 3xy² + y³
Key Observations
- The expansion always results in four terms.
- The coefficients of the terms follow the pattern of Pascal's Triangle.
- The exponents of x decrease from 3 to 0, while the exponents of y increase from 0 to 3.
Applications
The expansion of (x + y)³ has various applications in different areas of mathematics, including:
- Calculus: Finding derivatives and integrals of functions involving binomials.
- Algebra: Solving equations and simplifying expressions.
- Statistics: Deriving formulas for statistical measures.
Understanding the expansion of (x + y)³ provides a solid foundation for working with more complex expressions and solving problems in various fields.