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Expanding the Expression (x+5)(x^2-3x+1)
This article focuses on expanding the given algebraic expression: (x+5)(x^2-3x+1). This process is crucial in simplifying expressions and is often used in solving equations and inequalities.
Understanding the Process
The expression represents the product of two factors:
- (x+5): A binomial with two terms.
- (x^2-3x+1): A trinomial with three terms.
To expand this expression, we employ the distributive property. This involves multiplying each term in the first factor by each term in the second factor.
Step-by-Step Expansion
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Distribute the first term of the first factor (x):
- x * (x^2-3x+1) = x^3 - 3x^2 + x
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Distribute the second term of the first factor (5):
- 5 * (x^2-3x+1) = 5x^2 - 15x + 5
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Combine the results from steps 1 and 2:
- x^3 - 3x^2 + x + 5x^2 - 15x + 5
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Simplify by combining like terms:
- x^3 + 2x^2 - 14x + 5
Final Result
Therefore, the expanded form of (x+5)(x^2-3x+1) is x^3 + 2x^2 - 14x + 5.
Applications
Expanding expressions like this is essential in various mathematical contexts:
- Solving equations: Often, equations involve products of expressions. Expanding them allows for simplifying and solving for the unknown variable.
- Graphing functions: Expanding expressions can help determine the shape and behavior of graphs representing polynomial functions.
- Calculus: Expanding expressions is crucial in differentiating and integrating functions.
This simple process of expanding algebraic expressions is a fundamental skill in mathematics, playing a crucial role in various areas of study.