Introduction to Calculus Course Syllabus
Full curriculum breakdown — modules, lessons, estimated time, and outcomes.
Overview: This course offers a rigorous yet accessible introduction to calculus, designed for students preparing for advanced studies in STEM fields. Over approximately 12-16 weeks of part-time study (8-10 hours per week), learners will build a strong foundation in differential and integral calculus, emphasizing both theoretical understanding and practical applications. The course balances core concepts with problem-solving techniques, preparing students for careers or further education in engineering, data science, physics, and economics.
Module 1: Functions and Limits
Estimated time: 15 hours
- Review of algebraic and transcendental functions
- Graphical and analytical understanding of limits
- Concept of continuity
- Intermediate Value Theorem
Module 2: Derivatives
Estimated time: 20 hours
- Derivative as instantaneous rate of change
- Differentiation rules: power, product, quotient
- Chain rule
- Tangent lines and velocity problems
Module 3: Applications of Derivatives
Estimated time: 20 hours
- Optimization problems
- Curve sketching: increasing/decreasing, concavity
- Related rates
- L'Hôpital's Rule
Module 4: Integration
Estimated time: 25 hours
- Riemann sums and definite integrals
- Antiderivatives and indefinite integrals
- Integration techniques
- Fundamental Theorem of Calculus
Module 5: Final Project
Estimated time: 10 hours
- Solve real-world optimization and rate problems using derivatives
- Apply integration to compute accumulated quantities
- Submit a comprehensive problem set demonstrating mastery of core concepts
Prerequisites
- Strong foundation in algebra
- Familiarity with pre-calculus functions
- Basic understanding of trigonometric and exponential functions
What You'll Be Able to Do After
- Compute and interpret derivatives of algebraic and transcendental functions
- Solve optimization and related rates problems
- Evaluate definite integrals and apply the Fundamental Theorem of Calculus
- Analyze functions using continuity, limits, and curve behavior
- Build a solid mathematical foundation for advanced STEM coursework