PPT - LSU Physics & Astronomy
... • Electric potential uniquely defined for every point in space -independent of path! • Electric potential is a scalar — add contributions from individual point charges • We calculated the electric potential produced by a single charge: V=kq/r, and by continuous charge distributions: ...
... • Electric potential uniquely defined for every point in space -independent of path! • Electric potential is a scalar — add contributions from individual point charges • We calculated the electric potential produced by a single charge: V=kq/r, and by continuous charge distributions: ...
Learning Targets () - California State University, Northridge
... 5.f.b. Record and analyze observations of magnetic field/magnetic field interaction, and magnetic field/electric current interaction. g. Students know how to determine the direction of a magnetic field produced by a current flowing in a straight wire or in a coil. 5.g.a. Define the right hand rule. ...
... 5.f.b. Record and analyze observations of magnetic field/magnetic field interaction, and magnetic field/electric current interaction. g. Students know how to determine the direction of a magnetic field produced by a current flowing in a straight wire or in a coil. 5.g.a. Define the right hand rule. ...
NOTES AP2 Electric Potential
... As the monkey does work on the positive charge, he increases the energy of that charge. The closer he brings it, the more electrical potential energy it has. When he releases the charge, work gets done on the charge which changes its energy from electrical potential energy to kinetic energy. Every t ...
... As the monkey does work on the positive charge, he increases the energy of that charge. The closer he brings it, the more electrical potential energy it has. When he releases the charge, work gets done on the charge which changes its energy from electrical potential energy to kinetic energy. Every t ...
electric field
... The distances between charges in a group of charges may be much smaller than the distance between the group and a point of interest In this situation, the system of charges can be modeled as continuous The system of closely spaced charges is equivalent to a total charge that is continuously distribu ...
... The distances between charges in a group of charges may be much smaller than the distance between the group and a point of interest In this situation, the system of charges can be modeled as continuous The system of closely spaced charges is equivalent to a total charge that is continuously distribu ...
Ue and Voltage
... • The taller the hill, the more work you do: more force The work, W, done on an object by an agent exerting a constant force is the product of the component of the force in the direction of the displacement and the magnitude of the ...
... • The taller the hill, the more work you do: more force The work, W, done on an object by an agent exerting a constant force is the product of the component of the force in the direction of the displacement and the magnitude of the ...
Chapter 21
... • Select a cylindrical Gaussian surface (of radius r and length ℓ) • Electric field is constant in magnitude and perpendicular to the surface at every point on the curved part of the surface • The end view confirms the field is perpendicular to the curved surface • The field through the ends of the ...
... • Select a cylindrical Gaussian surface (of radius r and length ℓ) • Electric field is constant in magnitude and perpendicular to the surface at every point on the curved part of the surface • The end view confirms the field is perpendicular to the curved surface • The field through the ends of the ...
ppt
... • Demonstrated by Photoelectric Effect – Photon of energy hf collides with electron in metal – Transferssome or all of hf to electron – If hf > (= workfunction) electron escapes ...
... • Demonstrated by Photoelectric Effect – Photon of energy hf collides with electron in metal – Transferssome or all of hf to electron – If hf > (= workfunction) electron escapes ...
Electrical Energy, Potential and Capacitance
... FIELD will apply a FORCE on the proton (charge). Since like charges repel, the proton is considered to have a high potential (voltage) similar to being above the ground. It moves towards the negative plate or low potential (voltage). The plates are charged using a battery source where one side is po ...
... FIELD will apply a FORCE on the proton (charge). Since like charges repel, the proton is considered to have a high potential (voltage) similar to being above the ground. It moves towards the negative plate or low potential (voltage). The plates are charged using a battery source where one side is po ...
Magnitude of the Hall fields during magnetic reconnection
... and the fields described by Daughton et al. [2006]. The initial state is a Harris neutral sheet with gradients in the y direction and is characterized by the following parameters: mi/me = 400, Ti/Te = 5, wpe/wce = 2, and background density = 0.3 n0 (peak Harris density). Magnetic reconnection with a ...
... and the fields described by Daughton et al. [2006]. The initial state is a Harris neutral sheet with gradients in the y direction and is characterized by the following parameters: mi/me = 400, Ti/Te = 5, wpe/wce = 2, and background density = 0.3 n0 (peak Harris density). Magnetic reconnection with a ...
Magnetic Effects of Electric Current Summary An electric current
... An electric generator is a device that converts mechanical energy into electrical energy ...
... An electric generator is a device that converts mechanical energy into electrical energy ...
