Characteristics of the equatorial electrojet current in the central
... this region, and this produces the Hall polarization field. An abnormally large Cowling conductivity is thus generated close to the dip equator because of the additional eastward Hall current due to the vertical polarization field within ±3◦ dip latitudes with the same electric field system that gen ...
... this region, and this produces the Hall polarization field. An abnormally large Cowling conductivity is thus generated close to the dip equator because of the additional eastward Hall current due to the vertical polarization field within ±3◦ dip latitudes with the same electric field system that gen ...
X-Pol Potential: An Electronic Structure-Based Force
... as in AM1 except that the values of Uss and Upp are scaled by 0.99 as in previous studies.34,36 In calculating Eelec, the electric potential due to fragments sharing a boundary atom with the QM fragment under current consideration is calculated by explicit Coulomb integrals;36 the electric potential ...
... as in AM1 except that the values of Uss and Upp are scaled by 0.99 as in previous studies.34,36 In calculating Eelec, the electric potential due to fragments sharing a boundary atom with the QM fragment under current consideration is calculated by explicit Coulomb integrals;36 the electric potential ...
extraction of antiparticles concentrated in planetary magnetic fields
... current flowing through one or more rings made from high temperature superconductors. The current loop induces a magnetic dipole moment which can influence the trajectory of a charged particle over a very large spatial extent. This is the basic premise of the Bussard magnetic scoop first proposed fo ...
... current flowing through one or more rings made from high temperature superconductors. The current loop induces a magnetic dipole moment which can influence the trajectory of a charged particle over a very large spatial extent. This is the basic premise of the Bussard magnetic scoop first proposed fo ...
Conceptual Physics
... speed of a car, or kg/s for the rate at which water flows through a pipe. It might seem odd that we consider the basic unit of mass to be the kilogram, rather than the gram. The reason for doing this is that when we start defining other units starting from the basic three, some of them come out to b ...
... speed of a car, or kg/s for the rate at which water flows through a pipe. It might seem odd that we consider the basic unit of mass to be the kilogram, rather than the gram. The reason for doing this is that when we start defining other units starting from the basic three, some of them come out to b ...
electrostatic potential and capacitance
... conservative forces. Spring force and gravitational force are examples of conservative forces. Coulomb force between two (stationary) charges is also a conservative force. This is not surprising, since both have inverse-square dependence on distance and differ mainly in the proportionality constants ...
... conservative forces. Spring force and gravitational force are examples of conservative forces. Coulomb force between two (stationary) charges is also a conservative force. This is not surprising, since both have inverse-square dependence on distance and differ mainly in the proportionality constants ...
Unit 2 Electrostatic properties of conductors and dielectrics
... Electric field on points outside the conductor but very close to its surface is perpendicular to surS face of conductor; if it wasn’t, the tangent comS ponent of electric field to the surface, would move the charges on the surface, not being the conductor in equilibrium (but our hypothesis is that t ...
... Electric field on points outside the conductor but very close to its surface is perpendicular to surS face of conductor; if it wasn’t, the tangent comS ponent of electric field to the surface, would move the charges on the surface, not being the conductor in equilibrium (but our hypothesis is that t ...
Chapter 1
... change in total electrostatic energy (due to the work we have to do to change the system) has two contributions when a virtual displacement is performed. We can write up an expression taking both effects into account: • A change in electrostatic energy ∆W as a result of the change in geometry when t ...
... change in total electrostatic energy (due to the work we have to do to change the system) has two contributions when a virtual displacement is performed. We can write up an expression taking both effects into account: • A change in electrostatic energy ∆W as a result of the change in geometry when t ...
PDF list of all Ch. 20 Conceptual Questions, Conceptual Exercises
... (a) There is a point on the x axis between the two charges where the electric potential is zero. Where is this point? (b) The electric potential vanishes at one additional point on the x axis. In which of the following regions is this point located: region 1, x > 1.5 m; region 2, −1.5 m < x < 1.5 m ...
... (a) There is a point on the x axis between the two charges where the electric potential is zero. Where is this point? (b) The electric potential vanishes at one additional point on the x axis. In which of the following regions is this point located: region 1, x > 1.5 m; region 2, −1.5 m < x < 1.5 m ...
