Class X: Science Chapter 13: Magnetic Effects of Electric Current
... current carrying conductor in a magnetic field. 11. The phenomenon in which an electric current is induced in a circuit because of a changing magnetic field is called electromagnetic induction. 12. The magnetic field may change due to a relative motion between the coil and a magnet placed near to th ...
... current carrying conductor in a magnetic field. 11. The phenomenon in which an electric current is induced in a circuit because of a changing magnetic field is called electromagnetic induction. 12. The magnetic field may change due to a relative motion between the coil and a magnet placed near to th ...
Electric and magnetic field transformations Picture: Consider inertial frames
... E’ = λ/(2πε0 r’) { (y’/r’) j + (z’/r’) k } On the other hand B’ = 0 because there is no current. The transformed fields (relative velocity = v i): Ex = E’x = 0 Ey = γ E’y Ez = γ E’z E = γλ/(2πε0 r’) { (y’/r’) j + (z’/r’) k } E = γλ/(2πε0 r) { (y/r) j + (z/r) k } ; this is the same as a line of charg ...
... E’ = λ/(2πε0 r’) { (y’/r’) j + (z’/r’) k } On the other hand B’ = 0 because there is no current. The transformed fields (relative velocity = v i): Ex = E’x = 0 Ey = γ E’y Ez = γ E’z E = γλ/(2πε0 r’) { (y’/r’) j + (z’/r’) k } E = γλ/(2πε0 r) { (y/r) j + (z/r) k } ; this is the same as a line of charg ...
Larmor`s Formula
... farther out than r. Inside of this sphere the field lines point towards the location the charge had after the acceleration. Properly spoken, the figure is not correct as the charge continued to drift with its new velocity since the end of the acceleration. The field lines in the figure should reflec ...
... farther out than r. Inside of this sphere the field lines point towards the location the charge had after the acceleration. Properly spoken, the figure is not correct as the charge continued to drift with its new velocity since the end of the acceleration. The field lines in the figure should reflec ...
Physics 2 Homework 17 2013 We started discussing
... nonzero velocity. As we will learn later, in this case the electric field will appear and exert the force on our charge. This compensates for the lack of the magnetic force, so the total force applied to our charge does not depend on our choice of inertial frame of reference. Both electric and magne ...
... nonzero velocity. As we will learn later, in this case the electric field will appear and exert the force on our charge. This compensates for the lack of the magnetic force, so the total force applied to our charge does not depend on our choice of inertial frame of reference. Both electric and magne ...
Electromagnetism G. L. Pollack and D. R. Stump
... Electric current is one basic source of B(x), but the field of a bar magnet comes directly from the atoms—from electron spin and orbital states. In a ferromagnet crystal, the exchange force (a quantum effect of electrons) causes atomic magnetic moments to align, so that all moments within a single m ...
... Electric current is one basic source of B(x), but the field of a bar magnet comes directly from the atoms—from electron spin and orbital states. In a ferromagnet crystal, the exchange force (a quantum effect of electrons) causes atomic magnetic moments to align, so that all moments within a single m ...
Honors Physics
... 11. What causes the earth to have its magnetic field? 12. What is the difference between geographic north and a compass reading called? 13. What direction do the field lines “move” in a magnet? 14. Describe what happen to a wire placed in a magnetic field when current passes through the wire in both ...
... 11. What causes the earth to have its magnetic field? 12. What is the difference between geographic north and a compass reading called? 13. What direction do the field lines “move” in a magnet? 14. Describe what happen to a wire placed in a magnetic field when current passes through the wire in both ...
Magnetism Unit Assignment
... Show all your work on a separate sheet of loose-leaf paper, including starting formulas, substitutions and diagrams. 1) Compare the motion of a charged LD-particle (q = +11e) as it travels through an individual gravitational, electric and magnetic field: a) With a velocity parallel to and in the sam ...
... Show all your work on a separate sheet of loose-leaf paper, including starting formulas, substitutions and diagrams. 1) Compare the motion of a charged LD-particle (q = +11e) as it travels through an individual gravitational, electric and magnetic field: a) With a velocity parallel to and in the sam ...
L17_Magnetism
... definition from the back of the card is read out 6. Next players go 7. The winner is the one who answers all the questions correctly first ...
... definition from the back of the card is read out 6. Next players go 7. The winner is the one who answers all the questions correctly first ...
Midterm3 Last modified January 7, 2017 at 2:45 pm
... a) If B varies with time according to B = B0 sin (t), where B0 = 80 µT and = 50 rad/s, calculate the current induced in the coil at t = 0.020 s? b) If the coil starts rotating in this varying field B = B0 sin (t), calculate the current induced in the coil at an instant when the angle between th ...
... a) If B varies with time according to B = B0 sin (t), where B0 = 80 µT and = 50 rad/s, calculate the current induced in the coil at t = 0.020 s? b) If the coil starts rotating in this varying field B = B0 sin (t), calculate the current induced in the coil at an instant when the angle between th ...
S
... No, because the expectation values of the quantum fields are a Maxwellian wave. If the number of photons is large, the quantum effects are negligible. ...
... No, because the expectation values of the quantum fields are a Maxwellian wave. If the number of photons is large, the quantum effects are negligible. ...
Magnetism
... 1. Like charges repel, unlike attract 2. There are no magnetic monopoles in nature 3. Magnetic phenomena can be produced by electrical effects 4. Electrical phenomena can be produced by magnetic effects ...
... 1. Like charges repel, unlike attract 2. There are no magnetic monopoles in nature 3. Magnetic phenomena can be produced by electrical effects 4. Electrical phenomena can be produced by magnetic effects ...