• Defining the derivative of a function at a point and as a function
• Connecting differentiability and continuity
• Determining derivatives for elementary functions
• Applying differentiation rules

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• The chain rule for differentiating composite functions
• Implicit differentiation
• Differentiation of general and particular inverse functions
• Determining higher-order derivatives of functions

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• Identifying relevant mathematical information in verbal representations of real-world problems involving rates of change
• Applying understandings of differentiation to problems involving motion
• Generalizing understandings of motion problems to other situations involving rates of change
• Solving related rates problems
• Local linearity and approximation
• L’Hospital’s rule

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• Mean Value Theorem and Extreme Value Theorem
• Derivatives and properties of functions
• How to use the first derivative test, second derivative test, and candidates test
• Sketching graphs of functions and their derivatives
• How to solve optimization problems
• Behaviors of Implicit relations

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• Using definite integrals to determine accumulated change over an interval
• Approximating integrals using Riemann Sums
• Accumulation functions, the Fundamental Theorem of Calculus, and definite integrals
• Antiderivatives and indefinite integrals
• Properties of integrals and integration techniques

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• Interpreting verbal descriptions of change as separable differential equations
• Sketching slope fields and families of solution curves
• Solving separable differential equations to find general and particular solutions
• Deriving and applying a model for exponential growth and decay

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• Determining the average value of a function using definite integrals
• Modeling particle motion
• Solving accumulation problems
• Finding the area between curves
• Determining volume with cross-sections, the disc method, and the washer method

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