Course Details

Home
Subject
Lectures

Intuition for second part of fundamental theorem of calculus

Catogry:

Subject:

Course:

Integration And Accumulation Of Change

Lecture List

Intuition for second part of fundamental theorem of calculus

Proof of fundamental theorem of calculus

Integration using completing the square and the derivative of arctan(x)

Integration using long division

𝘶-substitution: definite integral of exponential function

𝘶-substitution: definite integrals

𝘶-substitution: logarithmic function

𝘶-substitution: rational function

𝘶-substitution: defining 𝘶 (more examples)

𝘶-substitution: defining 𝘶

𝘶-substitution: multiplying by a constant

𝘶-substitution intro

Definite integral of absolute value function

Definite integral of piecewise function

Definite integral involving natural log

Definite integral of trig function

Definite integral of radical function

Definite integral of rational function

Definite integrals: reverse power rule

Indefinite integrals of sin(x), cos(x), and eˣ

Indefinite integral of 1/x

Rewriting before integrating

Indefinite integrals: sums & multiples

Reverse power rule

Antiderivatives and indefinite integrals

The fundamental theorem of calculus and definite integrals

Finding derivative with fundamental theorem of calculus: x is on both bounds

Finding derivative with fundamental theorem of calculus: x is on lower bound

Functions defined by integrals: switched interval

Worked example: Merging definite integrals over adjacent intervals

Worked example: Breaking up the integral's interval

Definite integrals on adjacent intervals

Worked examples: Finding definite integrals using algebraic properties

Integrating sums of functions

Switching bounds of definite integral

Integrating scaled version of function

Definite integral over a single point

Finding definite integrals using area formulas

Negative definite integrals

Interpreting the behavior of accumulation functions

Worked example: Finding derivative with fundamental theorem of calculus

Functions defined by definite integrals (accumulation functions)

The fundamental theorem of calculus and accumulation functions

Worked example: Rewriting limit of Riemann sum as definite integral

Worked example: Rewriting definite integral as limit of Riemann sum

Definite integral as the limit of a Riemann sum

Worked example: Riemann sums in summation notation

Riemann sums in summation notation

Worked examples: Summation notation

Summation notation

Trapezoidal sums

Worked example: over- and under-estimation of Riemann sums

Worked example: finding a Riemann sum using a table

Over- and under-estimation of Riemann sums

Riemann approximation introduction

Worked example: accumulation of change

Definite integrals intro

Introduction to integral calculus