Schoolhouse.world: peer tutoring, for free.
Free SAT® Prep, as part of a research study.
SAT® Bootcamps
Free SAT® Prep, as part of a research study.
A global network of volunteers.
Explore Tutors
A global network of volunteers.

Calculus • Series

Comprehensive Calculus: Limits, Derivatives, and Integrals

Jose Roberto Cossich G

Series Details

Sessions

Public Discussion

This series ended on July 24, 2023. All 1:1 and group chats related to this series are disabled 7 days after the last session.

Series Details

About

Finally! The long-awaited series in Calculus is here. Main resources being used: AoPS and Khan Academy Pre-requisites: Trigonometry, Algebra 1, Algebra 2, and Precalculus (recommended but not required). The session descriptions are posted below, so please check them out! This is the first of three series I will be hosting, covering Calculus 1, 2, and 3. After each series ends I will host the next. In this course we will be covering the following: LIMITS AND CONTINUITY (Unit 1) - Introduction to limits - One and two-sided limits - Creating tables to approximate limits; approximating limits using tables - Limits of composite functions - Evaluating limits through direct substitution -Limits of trigonometric and piecewise functions -Evaluating limits by rationalizing and by using trigonometric identities -Squeeze theorem and applications -Introduction to continuity and types of discontinuities -Continuity at a point and over an interval -Removing discontinuities -Limits at infinity and limits at infinity of quotients -The Intermediate Value Theorem -The formal epsilon-delta definition of a limit DERIVATIVES (Unit 2): -Introduction to derivatives and notation -Average rate of change and the secant line -Instantaneous rate of change and the tangent line -The formal and informal definition of a derivative using limits -Equation of the tangent line of a function at a point -Estimating derivatives graphically and algebraically -Differentiability at a point and over an interval (connection to continuity) -Evaluating derivatives using the power rule, sum rule, product rule, quotient rule, and chain rule (including proofs of all the rules) -Derivative of sin(x), cos(x), tan(x), csc(x), sec(x), cot(x), ln(x), e^x, a^x, and log_a(x) (including a derivation of all of the formulas) -Derivative of inverse functions and inverse trigonometric functions -Second derivatives, implicit differentiation, and related rates -Position, velocity, and acceleration problems -Local linearity and linear approximations to functions -L'Hôpital's rule and the special case of L'Hôpital's rule -The Mean Value Theorem for derivatives, the Extreme Value Theorem, and Rolle's Theorem -Finding critical points, local minima and maxima, increasing and decreasing intervals of a function -Finding absolute extrema over closed intervals and over the entire domain of a function -Introduction to concavity -The Second Derivative Test and points of inflection -Optimization INTRODUCTION TO INTEGRATION (Unit 3) -introduction to accumulation of change -Left and right Riemann sums; over and under-approximation -Midpoint and trapezoidal sums -Definition of indefinite integral using as the limit of Riemann sums -The Fundamental Theorem of Calculus (including the proof), antiderivatives, and definite integrals -Interpretation of accumulation functions: negative definite integrals, definite integrals over a single point; graphical interpretation and evaluation. -Integrating sums of functions, switching the bounds of integration, and with functions as bounds. -The reverse power rule, u-substitution, and integration by parts -Antiderivatives of all the previously mentioned functions -Improper integrals

✋ ATTENDANCE POLICY

I try to make the session times as accommodating as possible, however make-up sessions are always available. Please feel free to ask for one if needed!

Dates

March 26 - July 24

Learners

30 / 40

Total Sessions

39

About the Tutor

A little about me: I'm about the biggest Indie fan there is, I almost exclusively watch (John Hughes>>) 80s movies or the upcoming Star Wars series, and I read sci-fi in my spare time. I tutor for the sake of those aha moments, and have taken Multivariable Calc, Linear Algebra, Real Analysis, and Complex Analysis. Who knows what I'll tutor next, hope to see you soon.

View Jose Roberto Cossich G's Profile

Upcoming Sessions

0

Past Sessions

39
26
Mar

Session 1

Limits and continuity

Hey everyone! (Session time: 1h30m) Today we'll be starting off with an introduction to the series, so we'll have a little orientation session to break the ice and get familiarized with how this series works. This should only take 20-30 minutes, so we'll use the remaining time to start off our discussion on limits. Topics covered today: - Introduction to limits - One and two-sided limits - Creating tables to approximate limits; approximating limits using tables
27
Mar

Session 2

Limits and continuity

(Session time: 60m) Hey guys, today we'll be covering the following topics: - Limits of composite functions - Evaluating limits through direct substitution
28
Mar

Session 3

Limits and continuity

(Session time: 1h30m) Hey guys, today we'll be covering the following topics: -Limits of trigonometric and piecewise functions -Evaluating limits by rationalizing and by using trigonometric identities -Squeeze theorem and applications
30
Mar

Session 4

Limits and continuity

(Session time: 1h30m) Hey guys, today we'll be covering the following topics: -Limits of trigonometric and piecewise functions -Evaluating limits by rationalizing and by using trigonometric identities -Squeeze theorem and applications
4
Apr

Session 5

Limits and continuity

(Session time: 1h30m) Hey guys, today we'll be covering the following topics: -Introduction to continuity and types of discontinuities -Continuity at a point and over an interval -Removing discontinuities Today we'll be practicing everything we've covered so far, and leave the last 30 minutes to cover -Limits at infinity and limits at infinity of quotients
10
Apr

Session 6

Limits and continuity

Today we'll be wrapping up our unit by covering -The Intermediate Value Theorem -The formal epsilon-delta definition of a limit (+ Links to epsilon-delta exercises)
15
Apr

Session 7

Review

(Session time: 2h) Today's a review session! So it's going to be structured a bit differently. You can stay for the sections you find most useful to you. FYI: -20min Q&A on everything we've covered so far -60min to work through the unit test for Limits and Continuity on Khan Academy -30min to work through challenging problems AoPS problems.
16
Apr

Session 8

Limits and continuity

(Session time: 2h) New content: -Limits at infinity and limits at infinity of quotients -The Intermediate Value Theorem -Q&A for epsilon-delta definition of a limit and proofs of limit properties, as well as Intermediate Value Theorem and Squeeze Theorem -Q&A on everything we've covered so far -60min to work through the unit test for Limits and Continuity on Khan Academy
17
Apr

Session 9

Differentiation: definition and basic derivative rules

(Session time: 1h15m) Hey guys! I'm really excited to start to start working on second unit: Derivatives! Today we'll cover the following topics, and wrap up with a nice game: -Introduction to derivatives and notation -Average rate of change and the secant line -Estimating derivatives graphically and algebraically
18
Apr

Session 10

Differentiation: definition and basic derivative rules

(Session time: 2h) Proofs, proofs, proofs! Today we'll be getting to one of my favorite parts of this unit, proving the Sum Rule, Power Rule, Product Rule, and Quotient Rule--all different techniques which allow us to differentiate functions! That should take us around an hour or so, so we'll use the remaining hour to practice these new and *extremely important techniques.
20
Apr

Session 11

Differentiation: definition and basic derivative rules

(Session time: 1h30m) To wrap up the second half of our proofs section of this second unit, we'll spend the first 20 minutes of today's session practicing some of the rules which we learnt yesterday, and then go on to derive the derivatives of sin(x), cos(x), tan(x), csc(x), sec(x), cot(x), ln(x), e^x, a^x, and log_a(x)! We'll probably spend another 30 minutes practicing applying these. Don't worry if that doesn't seem like enough--we'll spend the rest of the series practicing these!
22
Apr

Session 12

Review

(Session time: 1h10m) Today we'll be practicing all the differentiation rules we've learnt so far, first through some practice problems and then by completing the Unit Test together for the "Differentiation: definition and basic derivative rules" unit. If we have time, we'll practice differentiating inverse trigonometric functions and using chain rule some more.
21
May

Session 13

Differentiation: composite, implicit, and inverse functions

(Session time: 1h20m) These are other favorite topics of mine, because whoever thought of them must have been so clever: -Related rates problems -Local linearity and linear approximations to functions; deriving equation of the tangent line of a function at a point

Session 14

Differentiation: composite, implicit, and inverse functions

(Session time: 1h30m) Now that we've learnt all the basic theory, we can apply our knowledge of derivatives by dealing with -Second derivatives -Implicit differentiation -Position, velocity, and acceleration problems I have a feeling this will be particularly interesting to those interested in Physics...when we learnt antidifferentiation (integration) we'll be proving some basic projectile motion formulas!
22
May

Session 15

Contextual applications of differentiation

(Session time: 1h20m) Now that we've gone over all the "rules" regarding derivatives, as well as some of the common applications of derivatives, we can focus on the principal role derivatives play: allowing us to find the minimum and maximum of functions. In order to do that, though, we must first come up with some really important results: -L'Hôpital's rule and the special case of L'Hôpital's rule -The Mean Value Theorem for derivatives -The Extreme Value Theorem -Rolle's Theorem We'll prove L'Hôpital's rule and its special case, and the proof of the other three will be provided in writing.
27
May

Session 16

Contextual applications of differentiation

(Session time: 1h30m) To wrap up the second half of our proofs section of this second unit, we'll spend the first 20 minutes of today's session practicing some of the rules which we learnt yesterday, and then go on to derive the derivatives of sin(x), cos(x), tan(x), csc(x), sec(x), cot(x), ln(x), e^x, a^x, and log_a(x)! We'll probably spend another 30 minutes practicing applying these. Don't worry if that doesn't seem like enough--we'll spend the rest of the series practicing these!
29
May

Session 17

Differentiation: definition and basic derivative rules

(Session time: 1h30m) To wrap up the second half of our proofs section of this second unit, we'll spend the first 20 minutes of today's session practicing some of the rules which we learnt yesterday, and then go on to derive the derivatives of sin(x), cos(x), tan(x), csc(x), sec(x), cot(x), ln(x), e^x, a^x, and log_a(x)! We'll probably spend another 30 minutes practicing applying these. Don't worry if that doesn't seem like enough--we'll spend the rest of the series practicing these!
30
May

Session 18

Contextual applications of differentiation

(Session time: 1h30m) To wrap up the second half of our proofs section of this second unit, we'll spend the first 20 minutes of today's session practicing some of the rules which we learnt yesterday, and then go on to derive the derivatives of sin(x), cos(x), tan(x), csc(x), sec(x), cot(x), ln(x), e^x, a^x, and log_a(x)! We'll probably spend another 30 minutes practicing applying these. Don't worry if that doesn't seem like enough--we'll spend the rest of the series practicing these! (Session time: 1h20m) Now that we've gone over all the "rules" regarding derivatives, as well as some of the common applications of derivatives, we can focus on the principal role derivatives play: allowing us to find the minimum and maximum of functions. In order to do that, though, we must first come up with some really important results: -L'Hôpital's rule and the special case of L'Hôpital's rule -The Mean Value Theorem for derivatives -The Extreme Value Theorem -Rolle's Theorem We'll prove L'Hôpital's rule and its special case, and the proof of the other three will be provided in writing. (Session time: 1h) Trust me, the wait has been worth it. Today we'll be covering how to do the following: -Find critical points, local minima and maxima, increasing and decreasing intervals of a function -Find absolute extrema over closed intervals and over the entire domain of a function
4
Jun

Session 19

Contextual applications of differentiation

-L'Hôpital's rule and the special case of L'Hôpital's rule -The Mean Value Theorem for derivatives -The Extreme Value Theorem -Rolle's Theorem Additionally, we'll be covering how to do the following: -Find critical points, local minima and maxima, increasing and decreasing intervals of a function -Find absolute extrema over closed intervals and over the entire domain of a function. We'll be differentiating all the inverse trigonometric
5
Jun

Session 20

Contextual applications of differentiation

- Continuing last session
6
Jun

Session 21

Contextual applications of differentiation

(Session time: 1h30m) In single-variable calculus, there are two ways of finding the extrema of functions...today we're learning the second way: -Introduction to concavity -The Second Derivative Test -Points of inflection If we have enough time, we'll take on -challenging AoPS optimization problems, which essentially constitutes some practice of how calculus is actually used in real life: maximizing the profit of your company given limited resources or some other constraint, etc. (Sneak peak: the technique most often employed in order to deal with optimization problems in multivariable functions is called the method of Lagrange multipliers in case you're interested in finding out more about it).
8
Jun

Session 22

Other Topics

(Session time: 1h30m) In single-variable calculus, there are two ways of finding the extrema of functions...today we're learning the second way: -Introduction to concavity -The Second Derivative Test -Points of inflection If we have enough time, we'll take on -challenging AoPS optimization problems, which essentially constitutes some practice of how calculus is actually used in real life: maximizing the profit of your company given limited resources or some other constraint, etc. (Sneak peak: the technique most often employed in order to deal with optimization problems in multivariable functions is called the method of Lagrange multipliers in case you're interested in finding out more about it).
11
Jun

Session 23

Other Topics

(Session time: 1h30m) In single-variable calculus, there are two ways of finding the extrema of functions...today we're learning the second way: -Introduction to concavity -The Second Derivative Test -Points of inflection If we have enough time, we'll take on -challenging AoPS optimization problems, which essentially constitutes some practice of how calculus is actually used in real life: maximizing the profit of your company given limited resources or some other constraint, etc. (Sneak peak: the technique most often employed in order to deal with optimization problems in multivariable functions is called the method of Lagrange multipliers in case you're interested in finding out more about it).
12
Jun

Session 24

Other Topics

(Session time: 1h30m) In single-variable calculus, there are two ways of finding the extrema of functions...today we're learning the second way: -Introduction to concavity -The Second Derivative Test -Points of inflection If we have enough time, we'll take on -challenging AoPS optimization problems, which essentially constitutes some practice of how calculus is actually used in real life: maximizing the profit of your company given limited resources or some other constraint, etc. (Sneak peak: the technique most often employed in order to deal with optimization problems in multivariable functions is called the method of Lagrange multipliers in case you're interested in finding out more about it). (Session time: 1h30m) Now that we've learnt all the basic theory, we can apply our knowledge of derivatives by dealing with -Second derivatives -Implicit differentiation -Position, velocity, and acceleration problems I have a feeling this will be particularly interesting to those interested in Physics...when we learnt antidifferentiation (integration) we'll be proving some basic projectile motion formulas!
15
Jun

Session 25

Other Topics

(Session time: 1h30m) In single-variable calculus, there are two ways of finding the extrema of functions...today we're learning the second way: -Introduction to concavity -The Second Derivative Test -Points of inflection If we have enough time, we'll take on -challenging AoPS optimization problems, which essentially constitutes some practice of how calculus is actually used in real life: maximizing the profit of your company given limited resources or some other constraint, etc. (Sneak peak: the technique most often employed in order to deal with optimization problems in multivariable functions is called the method of Lagrange multipliers in case you're interested in finding out more about it).
19
Jun

Session 26

Other Topics

(Session time: 1h30m) Today we'll be going over the derivatives of inverse functions in general as well as the derivatives of inverse trigonometric functions arcsin(x) and arccos(x) (I will consider including the other four). We will also apply the chain rule to find the derivatives of a^x and log_a(x).

Session 27

Other Topics

(Session time: 3h) Today we'll be going over some problems relating to what we've covered so far, and after we'll complete the Unit Tests for "Differentiation: definition and basic derivative rules," "Contextual applications of differentiation," and "Differentiation: composite, implicit, and inverse functions" on Khan Academy together. Since today we'll be wrapping up our entire Derivatives unit, if you have any questions on anything covered in the three unit tests we've gone over, I'm willing to stay a bit longer to help. Remember to think of questions or bring up problems you need help with for this session--that's what it's for!
21
Jun

Session 28

Integration and accumulation of change

(Session time: 1h30m) Today we'll be going over the derivatives of inverse functions in general as well as the derivatives of inverse trigonometric functions arcsin(x) and arccos(x) (I will consider including the other four). We will also apply the chain rule to find the derivatives of a^x and log_a(x).
23
Jun

Session 29

Integration and accumulation of change

(Session time: 3h) Today we'll be going over some problems relating to what we've covered so far, and after we'll complete the Unit Tests for "Differentiation: definition and basic derivative rules," "Contextual applications of differentiation," and "Differentiation: composite, implicit, and inverse functions" on Khan Academy together. Since today we'll be wrapping up our entire Derivatives unit, if you have any questions on anything covered in the three unit tests we've gone over, I'm willing to stay a bit longer to help. Remember to think of questions or bring up problems you need help with for this session--that's what it's for!
25
Jun

Session 30

Integration and accumulation of change

(Session time: 60m) Continuing what we saw last session, we're going to talk about more types of sums such as -Midpoint and trapezoidal sums, then rigorously define the -Definite integral using as the limit of Riemann sums. This is going to be a really important definition, so make sure to pay attention (almost as important as the definition of a derivative using limits)
28
Jun

Session 31

Integration and accumulation of change

(Session time: 90m) I think what's below speaks for itself: Proof of The Fundamental Theorem of Calculus: -Definition of antiderivative and indefinite integral -Developing some methods to evaluate definite integrals, such as the Sum Rule for integrals and the -The Reverse Power Rule
29
Jun

Session 32

Integration and accumulation of change

Session time: 1h30m Interpretation of accumulation functions: negative definite integrals, definite integrals over a single point; graphical interpretation and evaluation. -Integrating sums of functions, switching the bounds of integration, and with functions as bounds. After going through all this (45min), we'll go over an integral technique *pun intended to find antiderivatives: - U-substitution
2
Jul

Session 33

Contextual applications of differentiation

- Going over Unit 5 unit test and Unit 4 content as review

Session 34

Integration and accumulation of change

- Riemann sums in summation notation\definite integral express as a limit -Quiz 1, 2, and 3
4
Jul

Session 35

Integration and accumulation of change

- Up to Quiz 4 (common antiderivatives) -U-substitution
5
Jul

Session 36

Integration and accumulation of change

-Integration by parts -Integration by partial fractions
6
Jul

Session 37

Integration and accumulation of change

-Average value of a function -Area between curves -Distance and velocity from acceleration with initial conditions -Solutions to exponential differential equations
8
Jul

Session 38

Review

Our last session, covering methods of integration
23
Jul

Session 39

Integration and accumulation of change

Our last session, covering methods of integration

Public Discussion

Please log in to see discussion on this series.