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The Cosmic da Vinci Code for the Big Bang – a Mathematical Toy Model
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M.S. El Naschie,
Published/Copyright:
June 1, 2007
Published Online: 2007-06
©2011 by Walter de Gruyter GmbH & Co.
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Articles in the same Issue
- CONTENTS
- Design of Extended Backstepping Sliding Mode Controller for Uncertain Chaotic Systems
- Synchronization between Two Different Hyperchaotic Systems
- Variational Iteration Method for Construction of Some Compact and Noncompact Structures of Klein-Gordon Equations
- Approximate Solutions of Generalized Pantograph Equations by the Differential Transform Method
- An Optimal Model for Hysteretic Nonlinear Phenomenon in Piezoelectric Actuator via Evolutionary Programming Algorithm
- A Practical Thermodynamic Method to Calculate the Best Glass-forming Composition for Bulk Metallic Glasses
- Application of Homotopy Perturbation Method to Squeezing Flow of a Newtonian Fluid
- Application of He's Homotopy Perturbation Method to Sumudu Transform
- The Cosmic da Vinci Code for the Big Bang – a Mathematical Toy Model
- Quantum Probability without a Phase and a Topological Resolution of the Two-slit Experiment
- Electrospun Nanoporous Spheres with Chinese Drug
- Approximate Solutions of Κ (2,2), KdV and Modified KdV Equations by Variational Iteration Method, Homotopy Perturbation Method and Homotopy Analysis Method
- The Fractal Dimension of the Fractal Model of Dropwise Condensation and Its Experimental Study
- Numerical Approach to Wind Ripple in Desert
- He's Homotopy Perturbation Method for Calculating Adomian Polynomials
- On Fixed Point Theorems in Intuitionistic Fuzzy Metrie Spaces
- Traveling Wave Solution of Korteweg-de Vries Equation using He's Homotopy Perturbation Method
- A Comparative Study of He's Homotopy Perturbation Method for Determining Frequency-amplitude Relation of a Nonlinear Oscillator with Discontinuities
- Numerical Simulation of Chua's Circuit Oriented to Circuit Synthesis
- A Constitutive Formulation of Arbitrary Fiber-Reinforced Viscoelastic Pieoelectric Compsite Materials-Part One
- A Constitutive Formulation of Arbitrary Fiber-Reinforced Viscoelastic Pieoelectric Compsite Materials-Part Two
Articles in the same Issue
- CONTENTS
- Design of Extended Backstepping Sliding Mode Controller for Uncertain Chaotic Systems
- Synchronization between Two Different Hyperchaotic Systems
- Variational Iteration Method for Construction of Some Compact and Noncompact Structures of Klein-Gordon Equations
- Approximate Solutions of Generalized Pantograph Equations by the Differential Transform Method
- An Optimal Model for Hysteretic Nonlinear Phenomenon in Piezoelectric Actuator via Evolutionary Programming Algorithm
- A Practical Thermodynamic Method to Calculate the Best Glass-forming Composition for Bulk Metallic Glasses
- Application of Homotopy Perturbation Method to Squeezing Flow of a Newtonian Fluid
- Application of He's Homotopy Perturbation Method to Sumudu Transform
- The Cosmic da Vinci Code for the Big Bang – a Mathematical Toy Model
- Quantum Probability without a Phase and a Topological Resolution of the Two-slit Experiment
- Electrospun Nanoporous Spheres with Chinese Drug
- Approximate Solutions of Κ (2,2), KdV and Modified KdV Equations by Variational Iteration Method, Homotopy Perturbation Method and Homotopy Analysis Method
- The Fractal Dimension of the Fractal Model of Dropwise Condensation and Its Experimental Study
- Numerical Approach to Wind Ripple in Desert
- He's Homotopy Perturbation Method for Calculating Adomian Polynomials
- On Fixed Point Theorems in Intuitionistic Fuzzy Metrie Spaces
- Traveling Wave Solution of Korteweg-de Vries Equation using He's Homotopy Perturbation Method
- A Comparative Study of He's Homotopy Perturbation Method for Determining Frequency-amplitude Relation of a Nonlinear Oscillator with Discontinuities
- Numerical Simulation of Chua's Circuit Oriented to Circuit Synthesis
- A Constitutive Formulation of Arbitrary Fiber-Reinforced Viscoelastic Pieoelectric Compsite Materials-Part One
- A Constitutive Formulation of Arbitrary Fiber-Reinforced Viscoelastic Pieoelectric Compsite Materials-Part Two
