Number and Algebra
Functions
Geometry & Trigonometry
Statistics & Probability
Calculus
SL 5.1—Introduction of differential calculus
SL 5.2—Increasing and decreasing functions
SL 5.3—Differentiating polynomials, n E Z
SL 5.4—Tangents and normal
SL 5.5—Integration introduction, areas between curve and x axis
SL 5.6—Differentiating polynomials n E Q. Chain, product and quotient rules
SL 5.7—The second derivative
SL 5.8—Testing for max and min, optimisation. Points of inflexion
SL 5.9—Kinematics problems
SL 5.10—Indefinite integration, reverse chain, by substitution
SL 5.11—Definite integrals, areas under curve onto x-axis and areas between curves
AHL 5.12—First principles, higher derivatives
AHL 5.13—Limits and L’Hopitals
AHL 5.14—Implicit functions, related rates, optimisation
AHL 5.15—Further derivatives and indefinite integration of these, partial fractions
AHL 5.16—Integration by substitution, parts and repeated parts
AHL 5.17—Areas under curve onto y-axis, volume of revolution (about x and y axes)
AHL 5.18—1st order DE’s – Euler method, variables separable, integrating factor, homogeneous DE using sub y=vx
AHL 5.19—Maclaurin series
Question Type 1: Implicit differentiation
Question Type 2: Tangents to implicitly defined curves
Question Type 3: Related rates with geometric constraints
Question Type 4: Finding maxima and minima of a function on a closed interval