Some properties of a non-linear integral Volterra equation with deviated argument
Bogdan Rzepecki (1976)
Annales Polonici Mathematici
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Displaying similar documents to “Polynomial algebra of constants of the four variable Lotka-Volterra system”
Some properties of a non-linear integral Volterra equation with deviated argument
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A method for solving the Volterra integral equation of the first kind
R. Smarzewski (1976)
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On a Staffans type inequality for vector Volterra integro-differential equations
G. Karakostas (1987)
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Rings of constants of four-variable Lotka-Volterra systems
Janusz Zieliński (2013)
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Lotka-Volterra systems appear in population biology, plasma physics, laser physics and derivation theory, among many others. We determine the rings of constants of four-variable Lotka-Volterra derivations with four parameters C 1, C 2, C 3, C 4 ∈ k, where k is a field of characteristic zero. Thus, we give a full description of polynomial first integrals of the respective systems of differential equations.
The existence of solutions to a Volterra integral equation
Wojciech Mydlarczyk (1996)
Annales Polonici Mathematici
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We study the equation u = k∗g(u) with k such that ln k is convex or concave and g is monotonic. Some necessary and sufficient conditions for the existence of nontrivial continuous solutions u of this equation are given.
Linear integral equations in the space of regulated functions.
Tvrdý, Milan (1997)
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Second order linear Volterra integrodifferential equations.
H. Oka (1996)
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Generalized solutions of Volterra integral equations of the first kind.
Falaleev, M.V., Sidorov, N.A., Sidorov, D.N. (2005)
Lobachevskii Journal of Mathematics
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An approximate solution of some Volterra integral equation with a smooth kernel
M. Niedziela (2008)
Applicationes Mathematicae
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The behaviour near the origin of nontrivial solutions to integral Volterra equations with a power nonlinearity is studied. Estimates of nontrivial solutions are given and some numerical examples are considered.
New conditions for the existence of non trivial solutions to some Volterra equations.
W. Okrasinski (1990)
Extracta Mathematicae
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We consider the following Volterra equation: (1) u(x) = ∫0 x k(x-s) g(u(s)) ds, where, k: [0, δ0] → R is an increasing absolutely continuous function such that k(0) = 0 g: [0,+ ∞) → [0,+ ∞) is an increasing absolutely continuous function such that g(0) = 0 and g(u)/u → ∞ as u → 0+ (see [3]). Let us note that (1) has always...
A Volterra inequality with the power type nonlinear kernel.
Mydlarczyk, W. (2001)
Journal of Inequalities and Applications [electronic only]
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The five-variable Volterra system
Janusz Zieliński (2011)
Open Mathematics
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We give a description of all polynomial constants of the five-variable Volterra derivation, hence of all polynomial first integrals of its corresponding Volterra system of differential equations. The Volterra system plays a significant role in plasma physics and population biology.