Calculus
Differentiation: composite, implicit, and inverse functions
- The chain rule: introduction
- The chain rule: further practice
- Implicit differentiation
- Differentiating inverse functions
- Differentiating inverse trigonometric functions
- Selecting procedures for calculating derivatives: strategy
- Selecting procedures for calculating derivatives: multiple rules
- Calculating higher-order derivatives
- Further practice connecting derivatives and limits
Register for a session to review this topic with a small group of learners.
Df
Calculus · series session
Differentiation: composite, implicit, and inverse functions
Difficult questions involving cases of multiple chain rule applications
VS
Vanshika S
0
10/15
Df
Calculus · series session
Differentiation: composite, implicit, and inverse functions
On this session we will be going deep into the properties of derivatives and their properties.
BL
RH
Renzo H
0
3/10
Df
Calculus · series session
Differentiation: composite, implicit, and inverse functions
Differentiaiton :chain rule
BL
YK
Yashmmit K
0
10/20
Df
Calculus · series session
Differentiation: composite, implicit, and inverse functions
Differentiation: composite, implicit, and inverse functions
BL
TK
Teo K
0
0/10
Df
Calculus · series session
Differentiation: composite, implicit, and inverse functions
Today, we will learn more about differentiation, learning how to take the derivative of more tricky functions, like implicit or inverse functions. These are crucial to further expand what types of functions we can differentiate, potentially without even knowing an explicit expression for the function.
BL
NB
Noah B
0
2/50
Df
Calculus · series session
Differentiation: composite, implicit, and inverse functions
Chain Rule and Composite Functions: Explore the chain rule to differentiate complex, nested functions with ease.
BL
BS
Benyamin S
0
5/30
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