Description
This digital book contains 5 lectures on practically everything STEM students need to know about Elementary Integral Calculus to succeed in their courses! The Lecture Notes contain useful Summaries (Cheat Sheets) and description of necessary Study Skills, including tips for preparing for tests and exams. The Notes are also supplied with answers to Socratic questions dispersed throughout and Solutions to suggested Home Exercises (Worked Examples).
The emphasis is on disentangling and explaining the necessary concepts. Teachers using these notes would enhance the quality of their teaching and by implication, students success. The Notes can be used on their own or to complement standard classroom materials.
Product Summary:
- Comprehensive Lecture Notes on College Algebra and Basic Calculus
- Socratic Questions and Suggested Answers
- Useful Summaries (also known as Cheat Sheets)
- A mathematics-specific Study Skills Guide, including tips for exam preparation
- Solutions to Exercises suggested for Self-study (Worked Examples)
Table of Contents
I. INTRODUCTION
II. CONCEPT MAPS
III. LECTURES
Lecture 18. INTEGRAL CALCULUS: Integration of Real Functions of One Real Variable (Definite Integrals)
18.1 A definite integral
18.2 Notation
18.3 Comparison of a definite Integral and derivative
18.4 Examples of integrable functions
18.5 The Mean Value Theorem
18.6 A definite integral with a variable upper limit – function Φ(x)
18.7 The Fundamental Theorem of Calculus
18.8 Applications of integration
18.9 A historical note
18.10 Instructions for self-study
Lecture 19. INTEGRAL CALCULUS: Integration of Real Functions of One Real Variable (Indefinite Integrals)
19.1 The relationship between differentiation and integration
19.2 An indefinite integral
19.3 Finding an indefinite integral
19.4 The Integration Table
19.5 Elementary integration rules
19.6 Integration Decision Tree
19.7 Integration method (rule) of change of variable (substitution)
19.8 Instructions for self-study
Lecture 20. INTEGRAL CALCULUS: Advanced Integration Methods
20.1 Integration of products of trigonometric functions
20.2 Integration by parts (integration of products of different types of functions)
20.2 Partial fractions
20.3 Integration of rational functions
20.4 Decision Tree for Integration
20.5 Instructions for self-study
Lecture 21. INTEGRAL CALCULUS: Applications of Integration
21.1 Mean value of a function
21.2 Electrical systems
21.3 Mechanical systems
21.4 Rotational systems
21.5 Instructions for self-study
Lecture 22. Ordinary Differential Equations
22.1 Basic concepts
22.2 Order of a differential equation
22.3 Linearity or non-linearity of a differential equation
22.4 Differential equations with constant coefficients
22.5 Homogeneous and inhomogeneous ODEs
22.6 The first order linear homogeneous equation with constant coefficients
22.7 The initial value problems
22.8 Balance equations in chemical engineering
22.9 Ordinary differential equations with complex coefficients
22.10 Applications
22.11 Instructions for self-study
IV. SUMMARIES
Algebra Summary
Functions Summary
Order of Operations Summary
Quadratics Summary
Trigonometry Summary
Complex Numbers
Decision Tree For Solving Simple Equations
Sketching Graphs by Simple Transformations
Finding a Limit of a Sequence
Differentiation Summary
Integration Summary
V. GLOSSARY
VI. STUDY SKILLS
VII. TEACHING METHODOLOGY (FAQs)
VIII. SOLUTIONS TO EXERCISES FOR SELF-STUDY (WORKED EXAMPLES)
Solutions to Exercises in Lecture 18
Solutions to Exercises in Lecture 19
Solutions to Exercises in Lecture 20
Solutions to Exercises in Lecture 21
Solutions to Exercises in Lecture 22
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