Calculus

Study of continuous change through derivatives and integrals.

Limits and ContinuityDerivatives and Rates of ChangeIntegrals and Area Under Curves
Applications of DerivativesTechniques of IntegrationInfinite Series and Convergence
Modeling MotionEconomics and OptimizationBiology and Population Growth
Breaking Down ProblemsMemorizing Key FormulasChecking Your Work
Limits and Continuit...Derivatives and Rate...Integrals and Area U...Applications of Deri...Techniques of Integr...Infinite Series and ...Modeling MotionEconomics and Optimi...Biology and Populati...Breaking Down Proble...Memorizing Key Formu...Checking Your Work
Advanced Topics

Infinite Series and Convergence

Adding Up Infinite Things

Sometimes we want to add up infinitely many terms—like decimals that go on forever! Infinite series let us do this in a controlled way.

Geometric Series

A geometric series has each term multiplied by a constant ratio. For example, \( 1 + \frac{1}{2} + \frac{1}{4} + \cdots \).

\[ S = \frac{a}{1 - r} \] (for \( |r| < 1 \))

Convergence

Not all infinite series add up to a finite value! If the sum settles on a number, the series "converges." Otherwise, it "diverges."

Why Series Matter

Series are used to represent functions, calculate complicated values, and model things in engineering, physics, and even finance.

Examples

  • The sum \( 1 + \frac{1}{2} + \frac{1}{4} + \ldots \) converges to 2.

  • The decimal representation \( 0.999... \) as an infinite series equals 1.

In a Nutshell

Infinite series add up endless lists of numbers, but only some actually add to a finite amount.

Key Terms

Series
The sum of the terms of a sequence.
Convergence
When an infinite series approaches a finite value.
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Modeling Motion