Calculus theory: Difference between revisions
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* '''Functions''' | |||
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* [[Graphs of trigonometric functions]] | |||
* [[Transforming the graph of functions]] | |||
* [[Linear algebra and deforming graphs of functions]] | |||
* [[Guessing the graphs of single variable functions]] | |||
* [[Guessing the graphs of multivariable functions]] | |||
* [[Level curves and level surfaces]] | |||
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* [[Mistakes regarding graphs]] | |||
* [[Mistakes regarding functions]] | |||
* [[Defining a function]] | |||
* [[Operations with functions]] | |||
* [[Visualising the domain of a function]] | |||
* [[Graphs of the parabola, exp and log]] | |||
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* '''Limits and continuity''' | |||
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* [[Properties of limits]] | |||
* [[Limits at or with infinity]] | |||
* [[Theorems covering limits and continuity of functions]] | |||
* [[Informal discussion of the Euler's constant]] | |||
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* [[Mistakes regarding limits]] | |||
* [[Informal limit and continuity of a single variable function]] | |||
* [[Formal limit and continuity of a single variable function]] | |||
* [[Limit and continuity of a multivariable function]] | |||
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* '''Differentiation and derivatives''' | |||
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* [[Linear approximation for two variables]] | |||
* [[Derivative formulas]] | |||
* [[Derivative of logarithm and exponential]] | |||
* [[Derivative of trigonometric functions]] | |||
* [[Derivative of inverse functions]] | |||
* [[Chain rule for single variable functions]] | |||
* [[Chain rule for multivariable functions]] | |||
* [[Implicit differentiation]] | |||
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* [[Mistakes regarding derivatives]] | |||
* [[Defining the derivative]] | |||
* [[Partial derivatives and direction]] | |||
* [[Defining the gradient]] | |||
* [[Conditions for differentiability for a single variable]] | |||
* [[Conditions for differentiability for many variables]] | |||
* [[A sufficient condition for differentiability for many variables]] | |||
* [[Linear approximation for one variable]] | |||
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* '''Applications of differentiation''' | |||
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* [[Increasing and decreasing functions]] | |||
* [[Extreme values of a function]] | |||
* [[Finding extreme values of a single variable function]] | |||
* [[Finding critical points of a single variable function]] | |||
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* [[l'Hospital rule]] | |||
* [[Finding extreme values of a multivariable function]] | |||
* [[Finding critical points of a multivariable function]] | |||
* [[Lagrange multipliers]] | |||
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* '''Integration and total change''' | |||
Latest revision as of 15:28, 1 September 2022
- Functions
- Limits and continuity
- Differentiation and derivatives
- Mistakes regarding derivatives
- Defining the derivative
- Partial derivatives and direction
- Defining the gradient
- Conditions for differentiability for a single variable
- Conditions for differentiability for many variables
- A sufficient condition for differentiability for many variables
- Linear approximation for one variable
- Applications of differentiation
- Integration and total change
