Difference between revisions of "Delta integral"

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(Properties of $\Delta$-integrals)
 
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There are a few equivalent definitions of $\Delta$-integration.
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__NOTOC__
  
==Cauchy $\Delta$-integral==
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Let $\mathbb{T}$ be a [[time scale]]. Delta integration is defined as the inverse operation of [[delta derivative|delta differentiation]] in the sense that if $F^{\Delta}(t)=f(t)$, then
Let $\mathbb{T}$ be a [[time_scale | time scale]]. We say that $f$ is regulated if its right-sided limits exist (i.e. are finite) at all right-dense points of $\mathbb{T}$ and its left-sided limits exist (i.e. are finite) at all left-dense points of $\mathbb{T}$. We say that $f$ is pre-differentiable with region of differentiation $D$ if $D \subset \mathbb{T}^{\kappa}$, $\mathbb{T}^{\kappa} \setminus D$ is countable with no right-scattered elements of $\mathbb{T}$, and $f$ is $\Delta$-differentiable at each $t \in D$.
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$$\displaystyle\int_s^t f(\tau) \Delta \tau = F(t)-F(s).$$
Now suppose that $f$ is regulated. It is known that there exists a function $F$ which is pre-differentiable with region of differentiation $D$ such that $F^{\Delta}(t)=f(t)$. We define the indefinite integral of a regulated function $f$ by
 
$$\displaystyle\int f(t) \Delta t = F(t)+C$$
 
for an arbitrary constant $C$.
 
 
 
Now we define the definite integral, i.e. the Cauchy integral, by the formula
 
$$\displaystyle\int_s^t f(\tau) \Delta \tau = F(t)-F(s)$$
 
for all $s,t \in \mathbb{T}$.
 
 
 
A function $F \colon \mathbb{T}\rightarrow \mathbb{R}$ is called an antiderivative of $f \colon \mathbb{T}\rightarrow \mathbb{R}$ if $F^{\Delta}(t)=f(t)$ for all $t \in \mathbb{T}^{\kappa}$. It is known that all rd-continuous functions possess an antiderivative, in particular if $t_0 \in \mathbb{T}$ then $F$ defined by
 
$$F(t) = \displaystyle\int_{t_0}^t f(\tau) \Delta \tau$$
 
is an antiderivative of $f$.
 
 
 
==Riemann $\Delta$-integral==
 
 
 
==Lebesgue $\Delta$-integral==
 
  
 
==Properties of $\Delta$-integrals==
 
==Properties of $\Delta$-integrals==
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[[Delta integral of delta derivative]]<br />
 
[[Delta integral of delta derivative]]<br />
 
[[Delta derivative of the delta integral]]<br />
 
[[Delta derivative of the delta integral]]<br />
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==References==
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[[Category:Definition]]

Latest revision as of 23:46, 22 August 2016


Let $\mathbb{T}$ be a time scale. Delta integration is defined as the inverse operation of delta differentiation in the sense that if $F^{\Delta}(t)=f(t)$, then $$\displaystyle\int_s^t f(\tau) \Delta \tau = F(t)-F(s).$$

Properties of $\Delta$-integrals

Delta integral from t to sigma(t)
Delta integral is linear
Interchanging limits of delta integral
Delta integrals are additive over intervals
Integration by parts for delta integrals with sigma in integrand
Integration by parts for delta integrals with no sigma in integrand
Delta integral over degenerate interval
Modulus of delta integral
Delta integral of nonnegative function
Delta integral of delta derivative
Delta derivative of the delta integral

References

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