Jets of a Perfectly Conducting Inviscid Gas in the Presence of a Magnetic Field parallel to the Stream
スポンサーリンク
概要
- 論文の詳細を見る
The two-dimensional and the axially symmetrical jets of a perfectly conducting inviscid gas in the presence of a magnetic field parallel to the stream are investigated on the basis of the linearized theory, when the jets are governed by the supersonic hyperbolic equation. To this approximation, the fundamental equations and the boundary conditions are found to agree in their forms with those in the ordinary gasdynamic case, except for some parameters. Therefore, it is possible to obtain the solutions at once by making suitable substitution of the parameters in the well-known solutions for the gasdynamic case. However, when the surrounding flow is governed by the subsonic hyperbolic equation, the circumstance is somewhat different from the gasdynamic case because disturbances in the surrounding flow propagate along the upstream characteristics. The structure of such a jet in the two-dimensional case is re-examined from the view point of reflection and refraction of a weak plane shock wave incident upon an interface between two streams.
- 社団法人日本物理学会の論文
- 1960-08-05
著者
関連論文
- Local Description of the Flow behind a Steady, Two-Dimensional, Curved Shock Wave
- Two-Dimensiona1 Supersonic Jet of a Conducting Inviscid Gas in the Presence of a Uniform Magnetic Field
- On the Shock Configuration in a Perfectly Conducting Gas in the Presence of a Uniform Magnetic Field
- Two-Dimensional Flow of a Weakly Conducting Gas Past a Plane Wall Containing a Magnetic Dipole
- Supersonic Jet of an Ideal Dissociating Gas with Finite Reaction Rate
- Jets of a Perfectly Conducting Inviscid Gas in the Presence of a Magnetic Field parallel to the Stream
- High Subsonic Flow past a Wedge in a Two-Dimensional Wind Tunnel at its choked State
- Two-Dimensional Unsteady Flow of a Weakly Conducting Fluid Past a Plane Wall Containing a Variable Magnetic Dipole