Difference between revisions of "Delta sine"
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− | Let $\mathbb{T}$ be a [[time_scale | time scale]] | + | __NOTOC__ |
− | $$\sin_p(t, | + | Let $\mathbb{T}$ be a [[time_scale | time scale]], let $s \in \mathbb{T}$, and let $\mu p^2 \colon \mathbb{T} \rightarrow \mathbb{R}$ be a [[regressive_function | regressive function]]. We define the trigonometric function $\sin_p \colon \mathbb{T} \times \mathbb{T} \rightarrow \mathbb{R}$ by |
+ | $$\sin_p(t,s;\mathbb{T})=\dfrac{e_{ip}(t,s;\mathbb{T})-e_{-ip}(t,s;\mathbb{T})}{2i}$$ | ||
+ | |||
+ | <div align="center"> | ||
+ | <gallery> | ||
+ | File:Integerdeltasine,a=0.6,s=0plot.png | Plot of $\sin_{0.6}(t,0;\mathbb{Z})$. | ||
+ | </gallery> | ||
+ | </div> | ||
+ | |||
+ | |||
=Properties= | =Properties= | ||
− | + | [[Derivative of Delta sine]]<br /> | |
− | + | [[Sum of squares of delta cosine and delta sine]]<br /> | |
+ | [[Derivative of delta cosine]]<br /> | ||
+ | |||
+ | =Examples= | ||
+ | {{:Table:Time scale delta sine functions}} | ||
− | + | <center>{{:Delta special functions footer}}</center> | |
− | {{: | ||
− | + | [[Category:specialfunction]] | |
− | + | [[Category:Definition]] | |
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Latest revision as of 14:13, 28 January 2023
Let $\mathbb{T}$ be a time scale, let $s \in \mathbb{T}$, and let $\mu p^2 \colon \mathbb{T} \rightarrow \mathbb{R}$ be a regressive function. We define the trigonometric function $\sin_p \colon \mathbb{T} \times \mathbb{T} \rightarrow \mathbb{R}$ by $$\sin_p(t,s;\mathbb{T})=\dfrac{e_{ip}(t,s;\mathbb{T})-e_{-ip}(t,s;\mathbb{T})}{2i}$$
Properties
Derivative of Delta sine
Sum of squares of delta cosine and delta sine
Derivative of delta cosine
Examples
$\mathbb{T}$ | $\sin$$_p(t,s)= $ |
$\mathbb{R}$ | |
$\mathbb{Z}$ | $\dfrac{\displaystyle\prod_{k=t_0}^{t-1}1+ip(k) - \displaystyle\prod_{k=t_0}^{t-1}1-ip(k)}{2i}$ |
$h\mathbb{Z}$ | |
$\mathbb{Z}^2$ | |
$\overline{q^{\mathbb{Z}}}, q > 1$ | |
$\overline{q^{\mathbb{Z}}}, q < 1$ | |
$\mathbb{H}$ |
$\Delta$-special functions on time scales | ||||||
$\cos_p$ |
$\cosh_p$ |
$e_p$ |
$g_k$ |
$h_k$ |
$\sin_p$ |
$\sinh_p$ |