Add to ORKGThe paper is concerned with the rigid body (ferromagnetic or superconductor) with fixed point in magnetic field. The aim is to study the qualitatively new class of motions arising at rotation of the magnetizing rigid body with fixed point in uniform constant magnetic field under influence of the Barnett-London effect. The geometric interpretation of different motions for body with fixed point rotating in magnetic field has been performed. Application field: instrument engineeringAvailable from VNTIC / VNTIC - Scientific & Technical Information Centre of RussiaSIGLERURussian Federatio
How does the number of magnets affect the angular acceleration of a homopolar motor, indicated by re...
The orthogonal relation between the magnetic aspect (spin) of elementary particles ’ energy with r...
Abstract:- The orthogonal relation between the magnetic aspect (spin) of scatterable elementary part...
The electric-charged gyrostat in the superposition of fields is investigated. The aim of the work is...
AbstractIn 1947 Grioli discovered that an asymmetric heavy rigid body moving about a fixed point can...
The Barnett effect refers to the magnetization induced by rotation of a demagnetized ferromagnet. We...
A mathematical model of the rotational motion of a particle with pronounced ferromagnetic properties...
Object of the Experiment. The immediate object of these experiments was to determine the electomot1v...
This paper attempts to explore the general rotatory 3D motion of a magnetic heavy solid body around ...
The analysis of nonclassical rotational response of superfluids and superconductors was performed by...
AbstractThis article deals with problem solution affecting the magnetic field of permanent magnets b...
Superconductors put into rotation develope a spontaneous internal magnetic field (the “London field”...
In the present article, the rotational motion of a symmetric rigid body (gyro) about a fixed point c...
The motion of a particle in the linear lattice of the SSC is stable, that is, the Courant-Synder inv...
AbstractWe show that a heavy, magnetized and electrically charged asymmetric rigid body moving about...
How does the number of magnets affect the angular acceleration of a homopolar motor, indicated by re...
The orthogonal relation between the magnetic aspect (spin) of elementary particles ’ energy with r...
Abstract:- The orthogonal relation between the magnetic aspect (spin) of scatterable elementary part...
The electric-charged gyrostat in the superposition of fields is investigated. The aim of the work is...
AbstractIn 1947 Grioli discovered that an asymmetric heavy rigid body moving about a fixed point can...
The Barnett effect refers to the magnetization induced by rotation of a demagnetized ferromagnet. We...
A mathematical model of the rotational motion of a particle with pronounced ferromagnetic properties...
Object of the Experiment. The immediate object of these experiments was to determine the electomot1v...
This paper attempts to explore the general rotatory 3D motion of a magnetic heavy solid body around ...
The analysis of nonclassical rotational response of superfluids and superconductors was performed by...
AbstractThis article deals with problem solution affecting the magnetic field of permanent magnets b...
Superconductors put into rotation develope a spontaneous internal magnetic field (the “London field”...
In the present article, the rotational motion of a symmetric rigid body (gyro) about a fixed point c...
The motion of a particle in the linear lattice of the SSC is stable, that is, the Courant-Synder inv...
AbstractWe show that a heavy, magnetized and electrically charged asymmetric rigid body moving about...
How does the number of magnets affect the angular acceleration of a homopolar motor, indicated by re...
The orthogonal relation between the magnetic aspect (spin) of elementary particles ’ energy with r...
Abstract:- The orthogonal relation between the magnetic aspect (spin) of scatterable elementary part...