Electromagnetism Physics - Magnetism and Matter

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Description

Magnetism and Matter

  • Current loop as a magnetic dipole and its magnetic dipole moment

  • Magnetic dipole moment of a revolving electron

  • Magnetic field intensity due to a magnetic dipole (bar magnet) along its axis and perpendicular to its axis

  • Torque on a magnetic dipole (bar magnet) in a uniform magnetic field −

    • Bar magnet as an equivalent solenoid

    • Magnetic field lines

    • Earth’s magnetic field

    • Magnetic elements

  • Para-, dia- and ferro - magnetic substances, with examples

  • Electromagnets and factors affecting their strengths

  • Permanent magnets

SUMMARY

1. The science of magnetism is old. It has been known since ancient times that magnetic materials tend to point in the north-south direction; like magnetic poles repel and unlike ones attract; and cutting a bar magnet in two leads to two smaller magnets. Magnetic poles cannot be isolated.

2. When a bar magnet of dipole moment m is placed in a uniform magnetic field B, (a) the force on it is zero, (b) the torque on it is m × B, (c) its potential energy is –m.B, where we choose the zero of energy at the orientation when m is perpendicular.

3. The earth’s magnetic field resembles that of a (hypothetical) magnetic dipole located at the centre of the earth. The pole near the geographic north pole of the earth is called the north magnetic pole. Similarly, the pole near the geographic south pole is called the south magnetic pole. This dipole is aligned making a small angle with the rotation axis of the earth.

4. Three quantities are needed to specify the magnetic field of the earth on its surface – the horizontal component, the magnetic declination, and the magnetic dip. These are known as the elements of the earth’s magnetic field.

5. The magnetisation M of the material is its dipole moment per unit volume. The magnetic field B in the material is, B = µ0 (H + M).

6. For a linear material M = χ H. So that B = µ H and χ is called the magnetic susceptibility of the material. The three quantities, χ, the relative magnetic permeability µr , and the magnetic permeability µ are related as follows: µ = µ0 µr µr = 1+ χ

7. Magnetic materials are broadly classified as: diamagnetic, paramagnetic, and ferromagnetic. For diamagnetic materials χ is negative and small and for paramagnetic materials it is positive and small. Ferromagnetic materials have large χ and are characterised by non-linear relation between B and H. They show the property of hysteresis.

9. Substances, which at room temperature, retain their ferromagnetic property for a long period of time are called permanent magnets.


What You Will Learn!

  • Introduction
  • The bar magnet
  • Magnetism and Gauss's Law
  • The Earth's magnetism
  • Magnetisation and Magnetic intensity
  • Magnetic properties of materials
  • Permanent magnets and electromagnets

Who Should Attend!

  • Complete Physics for Engineering and Medical Entrance Exam Preparation. ( IIT JEE Main | Advanced | BITSAT | SAT | NEET etc.)
  • Those preparing for board and competitive exams State Board, CBSE, ICSE , IGCSE, MHT-CET & NEET
  • Courses are suitable for 160 countries from Europe, America, Middle East, Asia, Africa and APAC. Notably England, Germany, France, Sweden, Ireland, Scotland, USA, Canada, UAE, Saudi, Qatar, Kuwait, Malaysia, Indonesia, Myanmar, Newzealand, Australia, South Africa, South Korea, Nigeria, Nepal, Sri Lanka, etc