Moving Charges and Magnetism
Physics Solutions from Chapter -1 - Moving Charges and Magnetism
This Chapter covers topics such as Ampere's Circuital Law, Cyclotron, Magnetic Force, Electrical Instruments, Magnetic Field on the Axis of a Circular Current Loop, Torque on Current Loop, Magnetic Dipole and, Motion in a Magnetic Field
Practice Other Topics from Moving Charges and Magnetism
This topic discusses the sources, magnetic fields and Lorentz forces with examples and features. We will learn about the magnetic forces on the current-carrying conductor. It also explains the concept of permittivity and permeability in detail.

In this topic, the concept of motion of a charge in a magnetic field is explained with examples. It discusses the centripetal force, the radius of the helix and helical motion of the charged particle with aurora borealis.

This topic explains the motion in combined electric and magnetic fields with figures. It discusses the cases for velocity selector, cyclotron with their frequency, period of revolution and resonance conditions.

This topic explains cyclotron as a machine capable of accelerating charged particles or ions to high energies. We will also get to learn how it works.

This topic deals with the concept of moving charges and magnetism. It explains the Biot-Savart law in detail with examples and illustrations. It also discusses the similarities and differences with Coulomb’s law of the electrostatic field.

In this topic, we will learn about the generation of magnetic field in a straight wire due to current.

This topic explains the magnetic field on the axis of a circular current loop and the role of Biot-Savart law. We will also learn about the right-hand thumb rule to find the direction of magnetic field lines.

This topic introduces us to Ampere’s circuital law with examples. It discusses the factors for choosing the Amperian loop. It also explains the results for the straight infinite current-carrying wire with examples.

This topic explains the magnetic field on a single moving charge to a straight rode carrying current. Generation of force between current carrying wires is also explained here in detail.

This topic deals with the concept of moving charges and magnetism. It explains the torque on the current loop in a uniform magnetic field and as a magnetic dipole. We will discuss the magnetic dipole of the revolving electron.

This topic describes some electrical instruments such as ammeter, capacitance meter and galvanometer. Their respective uses are also explained here.
