Three important areas

A magnet has more three important parts or area other than North Pole and South Pole, every one knows magnet has north and South Pole.

Three important areas of the magnet are equator area, weak flux area, and strong flux area of the magnet.

Equator area

Equator area is  found in between north and south pole of magnet, which is very important part of the magnet, because this part has equal reaction by two poles flux of magnet with 50% north poles flux and 50% south poles flux, even the flux will be very less because of it distance from the pole.
This equator area plays important role in space, all the planets in our solar system is placed at equator area of the sun, sun is placed at galaxy’s equator area and galaxy’s Is placed at equator area of empty space.

This area consists of line of equator and neutral state of magnet flux. When a magnetic material is place in this area then magnetic material will react with two poles magnetic flux (50% with N pole and 50% with S pole).so the magnetic material has two actions point and perfectly balanced.

This was the reason for easy to launch a rocket near the equator than north and South Pole in earth.

The Weak Flux Area
The flux created near to the magnet is resultant of leak or minimum atomic magnetic force of the magnet, so flux line formed near to magnet is called as minimum or weak flux area.
Weak flux area is the flux area created near to magnet; this area has very less power of collection of like atomic magnetic force.

The strong flux area

 Next important area of flux flow of the magnet is strong or maximum flux, which is found at center points of the poles of the magnet. This point has the maximum strength of the flux created by strong atomic magnetic force. Normally in bar magnet experiment we don’t take care about this maximum flux point, we only see weak or minimum out put of the flux. The maximum flux created by the magnet will travel in parallel way to magnet at the center of the pole of magnet.
This strong flux area has very powerful magnetic flux which can travel to a long distance and it will interact to a strong flux of other object.
Like wise in the earth’s geo magnetism we only see weak or minimum flux out put of the geo magnetism. What happen to the maximum action point of the flux? Where did this maximum flux of the geo magnetism travel? The maximum flux of our earth is clamped to one of the minimum flux of suns magnetic flux.

What is the proof for this law?
There are three experiments to prove this law

Introduction to final theory