Continuous growth and decay

What You'll Learn

Apply the continuous compounding formula A = Pe^(rt) to solve growth and decay problems

Recognize when to use the constant e for continuously compounding interest calculations

Calculate final amounts using continuous growth with given principal, rate, and time

Determine decay rates using natural logarithms and half-life information

Solve exponential equations with e by applying natural log (ln) to both sides

What You'll Practice

Computing account balances with continuous compound interest over many years

Finding decay rates of radioactive substances given half-life

Using natural logarithms to solve for variables in exponents with base e

Interpreting continuous growth and decay in real-world contexts

Why This Matters

Continuous growth and decay models are essential for understanding real-world phenomena like compound interest, population growth, and radioactive decay. This formula appears throughout advanced math, physics, chemistry, and finance, making it crucial for STEM careers and higher-level coursework.

Before You Start — Make Sure You Can:

Natural log: ln Solving exponential equations with logarithms

This Unit Includes

2 Video lessons

Practice exercises

Skills

Exponential Growth

Exponential Decay

Continuous Compounding

Natural Logarithm

Half-Life

Euler's Number

Interest Rate Calculations

OH Curriculum Aligned