Article
Publicly Available
Frontmatter
Published/Copyright:
June 27, 2016
Published Online: 2016-6-27
Published in Print: 2016-7-1
©2016 by De Gruyter
Articles in the same Issue
- Frontmatter
- Decay Mode Solutions for the Supersymmetric Cylindrical KdV Equation
- Cooling of Moving Wavy Surface through MHD Nanofluid
- Parallel Plate Flow of a Third-Grade Fluid and a Newtonian Fluid With Variable Viscosity
- Flow of a Micropolar Fluid Through a Channel with Small Boundary Perturbation
- Exact Solutions for Stokes’ Flow of a Non-Newtonian Nanofluid Model: A Lie Similarity Approach
- A New Reduction of the Self-Dual Yang–Mills Equations and its Applications
- Quasi-periodic Solutions to the K(−2, −2) Hierarchy
- Superposition of Solitons with Arbitrary Parameters for Higher-order Equations
- Elastic and Thermal Properties of Silicon Compounds from First-Principles Calculations
- Exact Solutions for N-Coupled Nonlinear Schrödinger Equations With Variable Coefficients
- Rapid Communication
- Electrical Conductivity of Molten CdCl2 at Temperatures as High as 1474 K
Articles in the same Issue
- Frontmatter
- Decay Mode Solutions for the Supersymmetric Cylindrical KdV Equation
- Cooling of Moving Wavy Surface through MHD Nanofluid
- Parallel Plate Flow of a Third-Grade Fluid and a Newtonian Fluid With Variable Viscosity
- Flow of a Micropolar Fluid Through a Channel with Small Boundary Perturbation
- Exact Solutions for Stokes’ Flow of a Non-Newtonian Nanofluid Model: A Lie Similarity Approach
- A New Reduction of the Self-Dual Yang–Mills Equations and its Applications
- Quasi-periodic Solutions to the K(−2, −2) Hierarchy
- Superposition of Solitons with Arbitrary Parameters for Higher-order Equations
- Elastic and Thermal Properties of Silicon Compounds from First-Principles Calculations
- Exact Solutions for N-Coupled Nonlinear Schrödinger Equations With Variable Coefficients
- Rapid Communication
- Electrical Conductivity of Molten CdCl2 at Temperatures as High as 1474 K
