Nandita Gupta scite author profile

Nandita Gupta

3Publications

1Citation Statement Received

44Citation Statements Given

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Indian Institute of Technology Roorkee

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Similarity solutions for cylindrical shock wave in self‐gravitating non‐ideal gas with axial magnetic field: Isothermal flow

Gupta

Sharma

Arora

2021

Math Methods in App Sciences

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The purpose of this study is to obtain the solution using the Lie group of symmetry method for the problem of propagating magnetogasdynamic strong cylindrical shock wave in a self‐gravitating non‐ideal gas with the magnetic field which is taken to be axial. Here, isothermal flow is considered. In the undisturbed medium, varying magnetic field and density are taken. Out of four different cases, only three cases yield the similarity solutions. Numerical computations have been performed for the cases of power law and exponential law shock paths, to find out the behavior of flow variables in the flow field immediately behind the shock. Similarity solutions are carried out by taking arbitrary constants in the expressions of infinitesimals of the Lie group of transformations. Also, the study of the present work provides a clear picture of whether and how the variations in the non‐ideal parameter of the gas, Alfven–Mach number, adiabatic exponent, ambient magnetic field variation index, and gravitational parameter affect the propagation of shock and the flow behind it. Software package “MATLAB” is used for all the computations.

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Approximate Analytical Solution Using Power Series Method for the Propagation of Blast Waves in a Rotational Axisymmetric Non-Ideal Gas

Gupta¹,

Arora²

2023

Preprint

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Similarity Solutions for Cylindrical Shock Wave in Self-Gravitating Non-Ideal Gas With Axial Magnetic Field: Isothermal Flow

Gupta

Sharma

Arora

2021

Preprint

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The purpose of this study is to obtain the solution using the Lie group of symmetry method for the problem of propagating magnetogasdynamic strong cylindrical shock wave in a self-gravitating non-ideal gas with the magnetic field which is taken to be axial. Here, isothermal flow is considered. In the undisturbed medium, varying magnetic field and density are taken. Out of four different cases, only three cases yield the similarity solutions. Numerical computations have been performed for the cases of power-law and exponential law shock paths, to find out the behavior of flow variables in the flow-field immediately behind the shock. Similarity solutions are carried out by taking arbitrary constants in the expressions of infinitesimals of the Lie group of transformations. Also, the study of the present work provides a clear picture of whether and how the variations in the non-ideal parameter of the gas, Alfven-Mach number, adiabatic exponent, ambient magnetic field variation index and gravitational parameter affect the propagation of shock and the flow behind it. Software package “MATLAB” is used for all the computations.

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Nandita Gupta

Similarity solutions for cylindrical shock wave in self‐gravitating non‐ideal gas with axial magnetic field: Isothermal flow

Approximate Analytical Solution Using Power Series Method for the Propagation of Blast Waves in a Rotational Axisymmetric Non-Ideal Gas

Similarity Solutions for Cylindrical Shock Wave in Self-Gravitating Non-Ideal Gas With Axial Magnetic Field: Isothermal Flow

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