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Calculus 2 (BC) in 30 Days

SAT Score Range

2 sessions

+8

This series was cancelled on June 19, 2024. We're very sorry–you can explore more Calculus series here. All 1:1 and group chats related to this series are disabled 7 days after the last session.

About

Hi everyone, I'm back!
Having previously taught Calculus 1 (the AB curriculum) and now seeing the staggering amount of demand for further maths, I've decided to host this intensive, yet comprehensive series on Calculus 2 (the equivalent of the post-AB portion of AP Calculus BC) including a FULL work-through of a real past exam.

The first two sessions will serve as a review of differential calculus. Below are what we will cover:

INTEGRATION AND APPLICATIONS (UNIT 1)

1. Introduction to accumulation of change
2. Left and right Riemann sums; over and under-approximation
3. Midpoint and trapezoidal sums
4. Definition of indefinite integral using as the limit of Riemann sums
5. The Fundamental Theorem of Calculus (including the proof), antiderivatives, and definite integrals
6. Interpretation of accumulation functions: negative definite integrals, definite integrals over a single point; graphical interpretation and evaluation.
7. Integrating sums of functions, switching the bounds of integration, and with functions as bounds.
8. The reverse power rule, u-substitution, and integration by parts
9. Antiderivatives of all the previously mentioned functions
10. Improper integrals
11. Finding the average value of a function on an interval
12. Connecting position, velocity, and acceleration functions using integrals
13. Using accumulation functions and definite integrals in applied contexts
14. Finding the area between curves expressed as functions of x
15. Finding the area between curves expressed as functions of y
16. Finding the area between curves that intersect at more than two points
17. Volumes with cross sections: squares and rectangles
18. Volumes with cross sections: triangles and semicircles
19. Volume with disc method: revolving around x- or y-axis
20. Volume with disc method: revolving around other axes
21. Volume with washer method: revolving around x- or y-axis
22. Volume with washer method: revolving around other axes
23. The arc length of a smooth, planar curve and distance traveled
24. Calculator-active practice
DIFFERENTIAL EQUATIONS (UNIT 2):

1. Modeling situations with differential equations
2. Verifying solutions for differential equations
3. Sketching slope fields
4. Reasoning using slope fields
5. Approximating solutions using Euler’s method
6. Finding general solutions using separation of variables
7. Finding particular solutions using initial conditions and separation of variables
8. Exponential models with differential equations
9. Logistic models with differential equations

PARAMETRIC EQUATIONS AND VECTOR-VALUED FUNCTIONS (UNIT 3):

1. Defining and differentiating parametric equations
2. Second derivatives of parametric equations
3. Finding arc lengths of curves given by parametric equations
4. Defining and differentiating vector-valued functions
5. Solving motion problems using parametric and vector-valued functions
6. Defining polar coordinates and differentiating in polar form
7. Finding the area of a polar region or the area bounded by a single polar curve
8. Finding the area of the region bounded by two polar curves
9. Calculator-active practice

INFINITE SERIES (UNIT 4):

1. Defining convergent and divergent infinite series
2. Working with geometric series
3. The nth-term test for divergence
4. Integral test for convergence
5. Harmonic series and p-series
6. Comparison tests for convergence
7. Alternating series test for convergence
8. Ratio test for convergence
9. Determining absolute or conditional convergence
10. Alternating series error bound
11. Finding Taylor polynomial approximations of functions
12. Lagrange error bound
13. Radius and interval of convergence of power series
14. Finding Taylor or Maclaurin series for a function
15. Representing functions as power series

Tutored by

Jose Roberto Cossich G 🇬🇹

Senior Tutor

Certified in 69 topics

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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.

Schedule

✋ 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!

SESSION 1

15

Jun

SESSION 1

Study Spaces

Study Spaces

Sat 2:30 PM - 4:00 PM UTCJun 15, 2:30 PM - 4:00 PM UTC

REVIEW OF DIFFERENTIAL CALCULUS (PART 1) (90m)

1. Introduction to derivatives and notation
2. Average rate of change and the secant line
3. Instantaneous rate of change and the tangent line
4. The formal and informal definition of a derivative using limits
5. Equation of the tangent line of a function at a point
6. Estimating derivatives graphically and algebraically
7. Differentiability at a point and over an interval (connection to continuity)
8. Evaluating derivatives using the power rule, sum rule, product rule, quotient rule, and chain rule (including proofs of all the rules)
9. 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)
10. Derivative of inverse functions and inverse trigonometric functions
SESSION 2

17

Jun

SESSION 2

Study Spaces

Study Spaces

Mon 2:30 PM - 4:00 PM UTCJun 17, 2:30 PM - 4:00 PM UTC

REVIEW OF DIFFERENTIAL CALCULUS (PART 1) (90m)

11. Second derivatives, implicit differentiation, and related rates
12. Position, velocity, and acceleration problems
13. Local linearity and linear approximations to functions
14. L'Hôpital's rule and the special case of L'Hôpital's rule
15. The Mean Value Theorem for derivatives, the Extreme Value Theorem, and Rolle's Theorem
16. Finding critical points, local minima and maxima, increasing and decreasing intervals of a function
17. Finding absolute extrema over closed intervals and over the entire domain of a function
18. Introduction to concavity
19. The Second Derivative Test and points of inflection
20. Optimization

Public Discussion

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Jun 15 - Jun 17

1 week

90 mins

/ session

SCHEDULE

Saturday, Jun 15

2:30PM

Monday, Jun 17

2:30PM