Chapter 31
... Lenz’s law: the induced current in a loop is in the direction that creates a magnetic field that opposes the change in magnetic flux through the area enclosed by the loop The induced current tends to keep the original magnetic flux through the circuit from changing ...
... Lenz’s law: the induced current in a loop is in the direction that creates a magnetic field that opposes the change in magnetic flux through the area enclosed by the loop The induced current tends to keep the original magnetic flux through the circuit from changing ...
L6 Lorentz force
... in a helix.) What is the angular frequency ω of its motion? Answer: The angular frequency is ω = v/r and we already obtained v2/r = qvB/m (for a particle of charge q and mass m); hence ω = qB/m. It is called the cyclotron frequency and it is independent of r and v. A cyclotron exploits this independ ...
... in a helix.) What is the angular frequency ω of its motion? Answer: The angular frequency is ω = v/r and we already obtained v2/r = qvB/m (for a particle of charge q and mass m); hence ω = qB/m. It is called the cyclotron frequency and it is independent of r and v. A cyclotron exploits this independ ...
Wednesday, Jan. 25, 2006
... arranging positive charges (in a pattern to be copied) on the surface of a nonconducting drum, then gently sprinkling negatively charged dry toner (ink) onto the drum. The toner particles temporarily stick to the pattern on the drum and are later transferred to paper and “melted” to produce the copy ...
... arranging positive charges (in a pattern to be copied) on the surface of a nonconducting drum, then gently sprinkling negatively charged dry toner (ink) onto the drum. The toner particles temporarily stick to the pattern on the drum and are later transferred to paper and “melted” to produce the copy ...
L6 Lorentz force
... in a helix.) What is the angular frequency ω of its motion? Answer: The angular frequency is ω = v/r and we already obtained v2/r = qvB/m (for a particle of charge q and mass m); hence ω = qB/m. It is called the cyclotron frequency and it is independent of r and v. A cyclotron exploits this independ ...
... in a helix.) What is the angular frequency ω of its motion? Answer: The angular frequency is ω = v/r and we already obtained v2/r = qvB/m (for a particle of charge q and mass m); hence ω = qB/m. It is called the cyclotron frequency and it is independent of r and v. A cyclotron exploits this independ ...
Chapter TM22
... Example – a conducting conductor • Insulators, like the previous charged sphere, trap excess charge so it cannot move. • Conductors have free electrons not bound to any atom. The electrons are free to move about within the material. If excess charge is placed on a conductor, the charge winds up on ...
... Example – a conducting conductor • Insulators, like the previous charged sphere, trap excess charge so it cannot move. • Conductors have free electrons not bound to any atom. The electrons are free to move about within the material. If excess charge is placed on a conductor, the charge winds up on ...
PPT
... 29.3.3. The drawing represents a device called Roget’s Spiral. A coil of wire hangs vertically and its windings are parallel to one another. One end of the coil is connected by a wire to a terminal of a battery. The other end of the coil is slightly submerged below the surface of a cup of mercury. ...
... 29.3.3. The drawing represents a device called Roget’s Spiral. A coil of wire hangs vertically and its windings are parallel to one another. One end of the coil is connected by a wire to a terminal of a battery. The other end of the coil is slightly submerged below the surface of a cup of mercury. ...
PH504lec0910-9
... This question has a complication which is easy to miss in that you have to be very careful concerning the signs of the three terms which contribute to the P.E. For example in the region -aa then the thir ...
... This question has a complication which is easy to miss in that you have to be very careful concerning the signs of the three terms which contribute to the P.E. For example in the region -a
Sept 2012 101 Lecture 5 1
... rubbed together, they become charged with equal but opposite charges. Charged objects either repel one another (for like charges, a or b) or attract one another (for unlike charges, c). ...
... rubbed together, they become charged with equal but opposite charges. Charged objects either repel one another (for like charges, a or b) or attract one another (for unlike charges, c). ...
