Ionization and Transport
... The precession of the mcs final direction around the particle direction: this is critical in order to preserve the various correlations embedded in the FLUKA advanced MCS algorithm The precession of a (possible) particle polarization around its direction of motion: this matters only when polarizatio ...
... The precession of the mcs final direction around the particle direction: this is critical in order to preserve the various correlations embedded in the FLUKA advanced MCS algorithm The precession of a (possible) particle polarization around its direction of motion: this matters only when polarizatio ...
Chapter 2: Statics of Particles
... - replacing multiple forces acting on a particle with a single equivalent or resultant force, - relations between forces acting on a particle that is in a state of equilibrium. • The focus on particles does not imply a restriction to miniscule bodies. Rather, the study is restricted to analyses in w ...
... - replacing multiple forces acting on a particle with a single equivalent or resultant force, - relations between forces acting on a particle that is in a state of equilibrium. • The focus on particles does not imply a restriction to miniscule bodies. Rather, the study is restricted to analyses in w ...
Lec04
... One point charge Q is placed inside a closed surface with complicated shape. Which of the following statements is correct on the flux through the surface? a) It’s not possible to calculate the flux since the details of the surface shape are not given. b) The flux is Q/ε0 c) The location of the charg ...
... One point charge Q is placed inside a closed surface with complicated shape. Which of the following statements is correct on the flux through the surface? a) It’s not possible to calculate the flux since the details of the surface shape are not given. b) The flux is Q/ε0 c) The location of the charg ...
Homework-Multipole
... Consider a cylinder of radius a, and of height a. The surface of the cylinder is covered with surface charge. The end caps of the cylinder have surface charge σ0 , and the sides have surface charge −σ0 . Take the center of the cylinder as your origin, with the z -axis along the cylinder axis. Find t ...
... Consider a cylinder of radius a, and of height a. The surface of the cylinder is covered with surface charge. The end caps of the cylinder have surface charge σ0 , and the sides have surface charge −σ0 . Take the center of the cylinder as your origin, with the z -axis along the cylinder axis. Find t ...
Planetary magnetic signature of the storm wind disturbance
... [2005] for all the observatories of the INTERMAGNET network. Previously, Le Huy and Amory-Mazaudier have analyzed the magnetic disturbance Ddyn observed on the same event 24– 25 November 2001, only at the equatorial latitudes [see Le Huy and Amory-Mazaudier, 2005, Figure 9]. [13] For this study the ...
... [2005] for all the observatories of the INTERMAGNET network. Previously, Le Huy and Amory-Mazaudier have analyzed the magnetic disturbance Ddyn observed on the same event 24– 25 November 2001, only at the equatorial latitudes [see Le Huy and Amory-Mazaudier, 2005, Figure 9]. [13] For this study the ...
Electric Potential around Point Charges
... 1. Batteries are sources of constant voltage, not constant current. The current out of a batteries changes depending on the resistance of the circuit. 2. Resistance is a property of a device or conducting material. Voltage, however, is applied “across” a device. Current is a “response” to the voltag ...
... 1. Batteries are sources of constant voltage, not constant current. The current out of a batteries changes depending on the resistance of the circuit. 2. Resistance is a property of a device or conducting material. Voltage, however, is applied “across” a device. Current is a “response” to the voltag ...
marking scheme
... Explanation to overcome these factors Three factors that prevent us from sending the signals directly are: ...
... Explanation to overcome these factors Three factors that prevent us from sending the signals directly are: ...
Document
... Electric Potential Energy and Voltage 1. potential energy between point charges, Q and q a. Ue = kqQ/r (J) b. Ue = 0, when Q and q are infinitely far apart c. scalar quantity d. sign of charge is included in calculation e. analogous to gravitational potential energy 1. Ug = -GMm/r (Ug = 0 when r = ...
... Electric Potential Energy and Voltage 1. potential energy between point charges, Q and q a. Ue = kqQ/r (J) b. Ue = 0, when Q and q are infinitely far apart c. scalar quantity d. sign of charge is included in calculation e. analogous to gravitational potential energy 1. Ug = -GMm/r (Ug = 0 when r = ...