Poster_2
... • for a creation of the above-described plasma diode with an anode-cathode gap d and acceleration of electrons with the efficiency of about 3-5%; • for self-focusing of this beam during its propagation to the DPF anode; • for subsequent magnetization the electron beam and for the substitution of the ...
... • for a creation of the above-described plasma diode with an anode-cathode gap d and acceleration of electrons with the efficiency of about 3-5%; • for self-focusing of this beam during its propagation to the DPF anode; • for subsequent magnetization the electron beam and for the substitution of the ...
Magnetic forces on moving charges – More than just a
... Magnetic forces on moving charges – More than just a nice theory! Back in 1820, Hans Christian Oersted discovered that as well as producing a magnetic field, an electric current experiences a force when placed in a magnetic field. That force is given by the expression F = IlB. We now regard a curren ...
... Magnetic forces on moving charges – More than just a nice theory! Back in 1820, Hans Christian Oersted discovered that as well as producing a magnetic field, an electric current experiences a force when placed in a magnetic field. That force is given by the expression F = IlB. We now regard a curren ...
Experimental Study on a Weakly-Ionized Rarefied Arc
... upstream domain in the plasma flow field. The ions flow downstream, however, they cannot be free from the electric field that is generated by the electrons fully magnetized [11, 14-16]. And finally, the ions tend to flow with the electrons in the most downstream domain. In short, the ions-flow requi ...
... upstream domain in the plasma flow field. The ions flow downstream, however, they cannot be free from the electric field that is generated by the electrons fully magnetized [11, 14-16]. And finally, the ions tend to flow with the electrons in the most downstream domain. In short, the ions-flow requi ...
current fuction usage for current lines construction in 2d models
... Thus the surface charge density reveals a distribution of streamlines (fig.2). The upper left corner of the object is less expressed in the apparent resistivity than the upper right. Both corners will be expressed clearer in the case of a conductive object. The best way to visualize surface charge d ...
... Thus the surface charge density reveals a distribution of streamlines (fig.2). The upper left corner of the object is less expressed in the apparent resistivity than the upper right. Both corners will be expressed clearer in the case of a conductive object. The best way to visualize surface charge d ...
ΦB = BAcosθ - Purdue Physics
... • The flux through the area to axis of solenoid therefore changes in time • A conducting ring placed on top of the solenoid will have a current induced in it opposing this change. • There will then be a force on the ring since it contains a current which is circulating in the presence of a magnet ...
... • The flux through the area to axis of solenoid therefore changes in time • A conducting ring placed on top of the solenoid will have a current induced in it opposing this change. • There will then be a force on the ring since it contains a current which is circulating in the presence of a magnet ...
Basic Physical Processes and Principles of Free Electron Lasers
... Tuning the operating wavelength is possible by adjusting the electron beam energy and /or the undulator parameters. In addition to its tunability F ELs high peak power and flexible pulse structure makes FEL a very attractive device, justified by the growing number of potential application depending ...
... Tuning the operating wavelength is possible by adjusting the electron beam energy and /or the undulator parameters. In addition to its tunability F ELs high peak power and flexible pulse structure makes FEL a very attractive device, justified by the growing number of potential application depending ...
dina maizana - UniMAP Portal
... Stroke constantly in this direction from one end to the other end ...
... Stroke constantly in this direction from one end to the other end ...
expansion phase
... but this is limited by the finite conductivity of the ionosphere at the foot of the field lines. – The return flow in the magnetosphere is unable to return flux to the dayside as fast as it is removed. The dayside magnetopause is eroded. ...
... but this is limited by the finite conductivity of the ionosphere at the foot of the field lines. – The return flow in the magnetosphere is unable to return flux to the dayside as fast as it is removed. The dayside magnetopause is eroded. ...
Relation between magnetic fields and electric currents in plasmas
... and J in the same terms and by the same method as previously applied to the MHD relation between the electric field and the plasma bulk flow (Vasyliūnas, 2001): assume that one but not the other is present initially, and calculate what happens. The result is that, for configurations with spatial sc ...
... and J in the same terms and by the same method as previously applied to the MHD relation between the electric field and the plasma bulk flow (Vasyliūnas, 2001): assume that one but not the other is present initially, and calculate what happens. The result is that, for configurations with spatial sc ...
POTENTIAL GRADIENT & CATHODE RAY TUBE
... The electron beam forming system consists of one device called an electron gun. The electron gun serves to create the electron beam that travels through the CRT. This device can be constructed in many ways, yet it always serves the same purpose. This device generates electron flow, and creates the e ...
... The electron beam forming system consists of one device called an electron gun. The electron gun serves to create the electron beam that travels through the CRT. This device can be constructed in many ways, yet it always serves the same purpose. This device generates electron flow, and creates the e ...
When no current is present, all the compass
... ● The magnetic field of the solenoid caused the rod to also become a magnet. ● An electromagnet is STRONGER magnet than a solenoid because the rod adds to the coil’s magnetic field. ...
... ● The magnetic field of the solenoid caused the rod to also become a magnet. ● An electromagnet is STRONGER magnet than a solenoid because the rod adds to the coil’s magnetic field. ...
ELECTRON CLUSTERS - POSSIBLE DEUTERIUM FUSION CATALYSERS
... not be completely neglected the possibility that the rich electron environment inside the EV can favour the fusion reaction d+d=He + γ, in a manner unknown to the author. The energy of a few MeV, e.g., 6 MeV, which is about the maximum which can result from a fusion act of two deuterons, could be tr ...
... not be completely neglected the possibility that the rich electron environment inside the EV can favour the fusion reaction d+d=He + γ, in a manner unknown to the author. The energy of a few MeV, e.g., 6 MeV, which is about the maximum which can result from a fusion act of two deuterons, could be tr ...
ETPD: The Facts and The FAQs
... drives electron current Electric field maintains Current free term. ...
... drives electron current Electric field maintains Current free term. ...
Electrodynamic tether
Electrodynamic tethers (EDTs) are long conducting wires, such as one deployed from a tether satellite, which can operate on electromagnetic principles as generators, by converting their kinetic energy to electrical energy, or as motors, converting electrical energy to kinetic energy. Electric potential is generated across a conductive tether by its motion through a planet's magnetic field.