A Palais–Smale approach to Lane–Emden equations

Abstract: We consider the unbounded domain problems − u + u = |u| p−2 u in Ω, u > 0 in Ω, and u = 0 on ∂Ω, where Ω is an unbounded domain in R N , 2 < p < 2 * , 2 * = 2N N −2 for N > 2, and 2 * = ∞ for N = 2. The existence of a ground state solution to the problems is greatly affected by the shape of the domain. To determine the existence of the solutions in a general domain remains a challenge task. For the flat interior flask domain that consists a strip and a ball attached to the bottom of the strip, previous results… Show more

“…with the Cauchy initial dates y(0)=a,y^' (0)=0, Many methods have been used to solve this problem (see, e.g. [31][32][33][34][35][36][37][38]). We have taken a linear law of dependence of the density from pressure 𝜌 = 𝜌 0 𝑝 0 𝑝.…”

A Steady Flow of The Viscous Compressible Liquid in Vertical Pipe

“…with the Cauchy initial dates y(0)=a,y^' (0)=0, Many methods have been used to solve this problem (see, e.g. [31][32][33][34][35][36][37][38]). We have taken a linear law of dependence of the density from pressure 𝜌 = 𝜌 0 𝑝 0 𝑝.…”

A Steady Flow of The Viscous Compressible Liquid in Vertical Pipe

Approximate polynomial solutions of the nonlinear Lane–Emden type equations arising in astrophysics using the squared remainder minimization method

Approximate solution of a differential equation arising in astrophysics using the variational iteration method