Difference between revisions of "Partial delta derivative"
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+ | Let $\mathbb{T}_1,\ldots,\mathbb{T}_n$ be [[time scale|time scales]] and define | ||
+ | $$\Lambda^n = \mathbb{T}_1 \times \mathbb{T}_2 \times \ldots \mathbb{T}_n$$ | ||
+ | to be an $n$-dimensional time scale. Let $f \colon \Lambda^n \rightarrow \mathbb{R}$ be a function. The partial derivative of $f$ with respect to $t_i \in \mathbb{T}^{\kappa}_i$ is defined by the limit | ||
+ | $$\displaystyle\lim_{\stackrel{s_i\rightarrow t_i}{s_i \neq \sigma_i(t_i)}} \dfrac{f(t_1,\ldots,t_{i-1},\sigma_i(t_i),t_{i+1},\ldots,t_n)-f(t_1,\ldots,t_n)}{\sigma_i(t_i)-s_i}$$ | ||
+ | and is denoted by multiple different notations: | ||
+ | $$\dfrac{\partial f(t_1,\ldots,t_n)}{\Delta_i t_i}, \dfrac{\partial f(t)}{\partial_i t_i}, \dfrac{\partial f}{\Delta_i t_i}, \dfrac{\partial f}{\Delta_i t_i}(t), f^{\Delta_i}_{t_i}(t).$$ | ||
+ | |||
+ | =See also= | ||
+ | [[Delta derivative]]<br /> | ||
=References= | =References= | ||
[http://web.mst.edu/~bohner/papers/pdots.pdf Partial differentiation on time scales] | [http://web.mst.edu/~bohner/papers/pdots.pdf Partial differentiation on time scales] | ||
+ | * {{PaperReference|Partial dynamic equations on time scales|2006|Billy Jackson||prev=|next=}}: Definition 1 | ||
+ | |||
+ | [[Category:Definition]] |
Latest revision as of 14:12, 28 January 2023
Let $\mathbb{T}_1,\ldots,\mathbb{T}_n$ be time scales and define $$\Lambda^n = \mathbb{T}_1 \times \mathbb{T}_2 \times \ldots \mathbb{T}_n$$ to be an $n$-dimensional time scale. Let $f \colon \Lambda^n \rightarrow \mathbb{R}$ be a function. The partial derivative of $f$ with respect to $t_i \in \mathbb{T}^{\kappa}_i$ is defined by the limit $$\displaystyle\lim_{\stackrel{s_i\rightarrow t_i}{s_i \neq \sigma_i(t_i)}} \dfrac{f(t_1,\ldots,t_{i-1},\sigma_i(t_i),t_{i+1},\ldots,t_n)-f(t_1,\ldots,t_n)}{\sigma_i(t_i)-s_i}$$ and is denoted by multiple different notations: $$\dfrac{\partial f(t_1,\ldots,t_n)}{\Delta_i t_i}, \dfrac{\partial f(t)}{\partial_i t_i}, \dfrac{\partial f}{\Delta_i t_i}, \dfrac{\partial f}{\Delta_i t_i}(t), f^{\Delta_i}_{t_i}(t).$$
See also
References
Partial differentiation on time scales
- Billy Jackson: Partial dynamic equations on time scales (2006): Definition 1