Homework No. 04 (Fall 2013) PHYS 320: Electricity and Magnetism I
... 4. Repeat Problem 1 for a uniformly charged hollow sphere of radius R with total charge Q. 5. Repeat Problem 1 for a solid sphere of radius R with total charge Q distributed inside the sphere with a charge density ρ(r) = br θ(R − r), ...
... 4. Repeat Problem 1 for a uniformly charged hollow sphere of radius R with total charge Q. 5. Repeat Problem 1 for a solid sphere of radius R with total charge Q distributed inside the sphere with a charge density ρ(r) = br θ(R − r), ...
The Electric Field
... •Lines leave (+) charges and return to (-) charges •Number of lines leaving/entering charge amount of charge •Tangent of line = direction of E •Local density of field lines local magnitude of ...
... •Lines leave (+) charges and return to (-) charges •Number of lines leaving/entering charge amount of charge •Tangent of line = direction of E •Local density of field lines local magnitude of ...
Chapter 16: Electric Charge and Fields
... A relatively safe place to be during a lightning storm is inside a car, surrounded by the metal body. ...
... A relatively safe place to be during a lightning storm is inside a car, surrounded by the metal body. ...
Chapter 21: Electric Charge and Electric Field
... 1) The E and B fields are always at right angles to each other. 2) The propagation of the fields, i.e., their direction of travel away from the oscillating dipole, is perpendicular to the direction in which the fields point at any given position in space. 3) In a location far from the dipole, the el ...
... 1) The E and B fields are always at right angles to each other. 2) The propagation of the fields, i.e., their direction of travel away from the oscillating dipole, is perpendicular to the direction in which the fields point at any given position in space. 3) In a location far from the dipole, the el ...
Motion of Charged Particles in Magnetic Fields File
... A certain charge moving north at 3.00 x 102 m s-1 enters a region in which there is a 5.00 x 10-6 T field acting vertically downward. The charge undergoes circular motion in a clockwise direction with a centripetal force of 3.00 x 10-3 N acting. Find the nature and size of the charge. ...
... A certain charge moving north at 3.00 x 102 m s-1 enters a region in which there is a 5.00 x 10-6 T field acting vertically downward. The charge undergoes circular motion in a clockwise direction with a centripetal force of 3.00 x 10-3 N acting. Find the nature and size of the charge. ...
Physics 12 Magnetic Force
... northward at 8.6 x 104 m/s, as it enters a magnetic field of 1.2 T directed vertically upward. (The mass of a proton is 1.67x 10–27 kg.) 1.7 x 10–14 N [E] ...
... northward at 8.6 x 104 m/s, as it enters a magnetic field of 1.2 T directed vertically upward. (The mass of a proton is 1.67x 10–27 kg.) 1.7 x 10–14 N [E] ...
Polarized sphere
... A long hollow cylinder is made out of a non-conducting material with a radius R, length l, and a charge surface density σ. An external torque rotates the cylinder around its axis with a steady angular velocity of ω(t) = αt 1. Calculate the magnetic field inside the cylinder 2. What is the electrical ...
... A long hollow cylinder is made out of a non-conducting material with a radius R, length l, and a charge surface density σ. An external torque rotates the cylinder around its axis with a steady angular velocity of ω(t) = αt 1. Calculate the magnetic field inside the cylinder 2. What is the electrical ...
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