Componente Curricular::Educação Superior::Ciências Exatas e da Terra::FísicaKnowledge in basic electromanetismThe path of a charged and otherwise free particle in uniform electric and magnetic fields depends on the charge q of the particle and the electric and magnetic field strengths E and B. The force exerted on the particle is F=q(E+vB). The red cylinder is parallel to the electric field. The blue cylinder is parallel to the magnetic field. The green cylinder points in the direction of the initial velocity v of the particl
We provide for the first time the exact solution of Maxwell's equations for a massless charged parti...
This session will introduce you to electric and magnetic fields. We’ll look at what we mean by a fie...
Content: Parallel force; Magnetic Moment µ of a gyrating electric charge; Different Coordinate Syste...
Componente Curricular::Educação Superior::Ciências Exatas e da Terra::FísicaKnowledge in basic elect...
Knowledge in classical electromagnetismThe path of a charged, and otherwise free, particle in a unif...
We study the motion states of charged particles in a homogeneous electromagnetic field based on the ...
The existence of the jerk vector and the resulting curvature and torsion were investigated in the mo...
In the article described the method of teaching electrodynamics, which is based on considerably fewe...
The existence of the jerk vector and the resulting curvature and torsion are investigated in the mot...
Content: ExB-Drift; Preconditions; Gyration of a Negatively Charged Particle; Possible spatial veria...
Ensino Médio::FísicaSimulation which allows the student to observe that an electric charge moving wi...
Magnets are at the core of both circular and linear accelerators. The main function of a magnet is t...
The principal difficulties encountered in attempting to solve the general problem of the motion of a...
In concert with a companion paper,1 inertial mass is explained and predicted for any velocity from e...
The motion of charged particles in the Earth’s magnetic field has been of interest to mathematicians...
We provide for the first time the exact solution of Maxwell's equations for a massless charged parti...
This session will introduce you to electric and magnetic fields. We’ll look at what we mean by a fie...
Content: Parallel force; Magnetic Moment µ of a gyrating electric charge; Different Coordinate Syste...
Componente Curricular::Educação Superior::Ciências Exatas e da Terra::FísicaKnowledge in basic elect...
Knowledge in classical electromagnetismThe path of a charged, and otherwise free, particle in a unif...
We study the motion states of charged particles in a homogeneous electromagnetic field based on the ...
The existence of the jerk vector and the resulting curvature and torsion were investigated in the mo...
In the article described the method of teaching electrodynamics, which is based on considerably fewe...
The existence of the jerk vector and the resulting curvature and torsion are investigated in the mot...
Content: ExB-Drift; Preconditions; Gyration of a Negatively Charged Particle; Possible spatial veria...
Ensino Médio::FísicaSimulation which allows the student to observe that an electric charge moving wi...
Magnets are at the core of both circular and linear accelerators. The main function of a magnet is t...
The principal difficulties encountered in attempting to solve the general problem of the motion of a...
In concert with a companion paper,1 inertial mass is explained and predicted for any velocity from e...
The motion of charged particles in the Earth’s magnetic field has been of interest to mathematicians...
We provide for the first time the exact solution of Maxwell's equations for a massless charged parti...
This session will introduce you to electric and magnetic fields. We’ll look at what we mean by a fie...
Content: Parallel force; Magnetic Moment µ of a gyrating electric charge; Different Coordinate Syste...