How to Understand and Solve the Chain Rule Problem in Calculus?

Another1 · Aug 23, 2020

\[ \frac{\partial \dot{r}}{\partial \dot{q_k}} = \frac{\partial r}{\partial q_k} \]
where
\[ r = r(q_1,...,q_n,t \]

solution

\[ \frac{dr }{dt } = \frac{\partial r}{\partial t} + \sum_{i} \frac{\partial r}{\partial q_i}\frac{\partial q_i}{\partial t}\]
\[ \dot{r} = \frac{\partial r}{\partial t} + \sum_{i} \frac{\partial r}{\partial q_i}\dot{q_i}\]

let
\[ \frac{\partial\dot{r}}{\partial \dot{q_k}} = \frac{\partial^2r}{\partial\dot{q_k} \partial t} +\frac{\partial}{\partial \dot{q_k}} ( \frac{\partial r}{\partial q_1} \dot{q_1} + ... + \frac{\partial r}{\partial q_k} \dot{q_k} + ... + \frac{\partial r}{\partial q_n} \dot{q_n} ) \]

I think
\[\frac{\partial^2r}{\partial\dot{q_k} \partial t} = 0 \]
and
\[ \frac{\partial}{\partial \dot{q_k}} ( \frac{\partial r}{\partial q_n} \dot{q_n}) = 0\]for k not equal to n

HOI · Aug 24, 2020

What does $\dot{r}$ mean and how is it different from $r$?

Another1 · Aug 24, 2020

Country Boy said:

What does $\dot{r}$ mean and how is it different from $r$?

$\dot{r} $ mean full derivative of r by dt because \[ r=r(q_1,...,q_n,t) \] and \[ q_n = q_n(t) \]
any $q_n$ as function of time so $\dot{r}$is formed by taking the derivative with respect to dt for $( q_1,...,q_n,t )$

How to Understand and Solve the Chain Rule Problem in Calculus?

1. What is the chain rule?

2. Why is the chain rule important?

3. How do you apply the chain rule?

4. Can you give an example of using the chain rule?

5. How does the chain rule relate to the product rule and quotient rule?

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