sketch the line of force of a +ve point charge placed near a -ve point charge of the same magnitude
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The line of force has the direction from positive charged body to negative charged boy...
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The answer for the line of force is as follows
Explanation:
Line of force :
- The line of force is an imaginary line.
- It represents the direction of magnitude, gravitational field, or electric field at any point.
- In other words, a line of force is a field of force whose tangency at any point gives the direction of the field at that point.
- The concept of line of force was found by Michael Faraday in the year 1837.
- Michael Faraday said that a force is experienced when a unit charge or point charge is placed in the electric field of another charged particle.
- The direction of this force is represented by the imaginary lines, which are called electric lines of force.
- These electric line of force are also called as electric field lines.
Properties of Magnetic line of force :
- Magnetic line of force always travels from North pole to south pole.
- As the distance between the magnetic poles increases, the density of the magnetic line of force also increases.
- The direction of magnetic line of force inside a magnet is always from south pole to north pole.
- No two magnetic line of force intersect with each other.
- The strength of the magnetic lines of force is similar throughout the magnetic field.
- Magnetic line of force is proportional to how close the lines of force are.
- Magnetic line of force always forms a close loop.
Characteristics of electric line of force :
- Electric line of force contracts longitudinally.
- Electric lines of force expand laterally.
- Electric line of force cannot intersect with each other.
- Two electric lines of force travelling in the opposite direction attract each other.
- Two electric lines of force travelling in the same direction repel each other.
- The lines of force are imaginary but the field it represents is real.
- There are no lines of force inside the conductor.
- Electric line of force never form a close loop.
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