AbstractConsider the neutral differential equation with mixed arguments ddt[y(t) + py(t − τ)] + q1y(t − σ1) + q2y(t + σ2) = 0 (1) where p, q1, q2, τ, σ1, σ2 are positive real numbers. We prove that every solution of Eq. (1) oscillates if and only if the characteristic equation λ + λpe−λτ + q1e−λσ1 + q2eλσ2 = 0 has no real roots
AbstractConsider the nth-order neutral differential equation [formula] where n ≧ 1, J, K are initial...
AbstractConsider the nth-order neutral differential equation [formula] where n ≧ 1, J, K are initial...
AbstractConsider the neutral delay differential equation ddt[y(t) + py(t − τ)] + q1 y(t − σ1) + q2 y...
AbstractConsider the neutral differential equation with mixed arguments ddt[y(t) + py(t − τ)] + q1y(...
AbstractConsider the neutral differential equation ddt [y(t) + py(t − τ)] + qy(t − σ) = 0, t ≧ t0 (∗...
AbstractConsider the neutral delay differential equation ddt[y(t) + py(t − τ)] + q1 y(t − σ1) + q2 y...
AbstractConsider the neutral delay differential equation x′(t) + px′(t–τ) + qx(t-σ) = 0, t ≧ t0, (∗)...
AbstractConsider the neutral equation with several positive and negative coefficients dd[tx(t)+∑Ipix...
AbstractConsider the neutral delay differential equation d2dt2 [y(t) + Py(t − τ)] + qy(t − σ) = 0, (...
AbstractSufficient conditions for the oscillation of the equation ddt[x(t)−R(t)x(t−r)]+P(t)x(t−τ)−Q(...
AbstractConsider the neutral delay differential equation (∗) (ddt)[y(t) + py(t − τ)] + qy(t − σ) = 0...
AbstractWe obtain, respectively, new sufficient conditions for the oscillation of all solutions and ...
We obtain some new sharp sufficient conditions for the oscillation of all solu-tions of the first or...
We studied the asymptotic behavior and the oscillatory properties of solutions of the neutral delay ...
We obtain some new results for oscillation of all solutions of the neutral differential equation wit...
AbstractConsider the nth-order neutral differential equation [formula] where n ≧ 1, J, K are initial...
AbstractConsider the nth-order neutral differential equation [formula] where n ≧ 1, J, K are initial...
AbstractConsider the neutral delay differential equation ddt[y(t) + py(t − τ)] + q1 y(t − σ1) + q2 y...
AbstractConsider the neutral differential equation with mixed arguments ddt[y(t) + py(t − τ)] + q1y(...
AbstractConsider the neutral differential equation ddt [y(t) + py(t − τ)] + qy(t − σ) = 0, t ≧ t0 (∗...
AbstractConsider the neutral delay differential equation ddt[y(t) + py(t − τ)] + q1 y(t − σ1) + q2 y...
AbstractConsider the neutral delay differential equation x′(t) + px′(t–τ) + qx(t-σ) = 0, t ≧ t0, (∗)...
AbstractConsider the neutral equation with several positive and negative coefficients dd[tx(t)+∑Ipix...
AbstractConsider the neutral delay differential equation d2dt2 [y(t) + Py(t − τ)] + qy(t − σ) = 0, (...
AbstractSufficient conditions for the oscillation of the equation ddt[x(t)−R(t)x(t−r)]+P(t)x(t−τ)−Q(...
AbstractConsider the neutral delay differential equation (∗) (ddt)[y(t) + py(t − τ)] + qy(t − σ) = 0...
AbstractWe obtain, respectively, new sufficient conditions for the oscillation of all solutions and ...
We obtain some new sharp sufficient conditions for the oscillation of all solu-tions of the first or...
We studied the asymptotic behavior and the oscillatory properties of solutions of the neutral delay ...
We obtain some new results for oscillation of all solutions of the neutral differential equation wit...
AbstractConsider the nth-order neutral differential equation [formula] where n ≧ 1, J, K are initial...
AbstractConsider the nth-order neutral differential equation [formula] where n ≧ 1, J, K are initial...
AbstractConsider the neutral delay differential equation ddt[y(t) + py(t − τ)] + q1 y(t − σ1) + q2 y...
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