In a combined magnetic field, a neutral point is a place where the magnetic field is zero
As far as the electric field is stationary then no magnetic field. But when electric field is moving at a uniform speed then a magnetic field will be produced. This is what we call Lorentz magnetic field.
This is true for any contiguous function, not just magnetic fields.
Things that are affected by a magnetic field, such as iron and steel can hover in a magnetic field.
This is because of the polarity of the magnetic field and how north interact with south. In the middle of the magnet, the magnetic field is sort of neutral. The further away from middle and the stronger the force will be.
The stroking method makes all of the atoms in the magnetic object point in one direction, causing a magnetic field.
In a combined magnetic field, a neutral point is a place where the magnetic field is zero
The point in the magnetic field at which the horizontal components of earth's magnetic field and the magnetic field due to magnet are exactly opposite & equal is known as neutral point.
As far as the electric field is stationary then no magnetic field. But when electric field is moving at a uniform speed then a magnetic field will be produced. This is what we call Lorentz magnetic field.
This is true for any contiguous function, not just magnetic fields.
Then, at some point, the field would go into two directions simultaneously, which doesn't make much sense. The magnetic field lines form continuous closed loops.The tangent to the field line at a point represent the direction of the net magnetic field B,at that point.The magnetic field lines do not intersect,if they did, the direction of the magnetic field would not be unique at the point of intersection.
A magnetic field line shows the direction a compass needle would point
It is a way of representing the magnetic force at a point in the field. The magnitude and direction of the vector represents the strength and the direction of the magnetic force acting on a charged particle in the field.
A magnetic field line shows the direction a compass needle would point.
The magnetized needle of a compass is attracted to the Earth's own magnetic field which has magnetic poles at the North and South.
The direction of a magnetic field is defined by the direction in which a compass needle will point when placed within that field -that is, from north to south.
At the midpoint between the poles. [Actually, that's the point with the highest magnetic field ... but its all contained within the body of the magnet, so when measuring the field it seems the lowest.]
The earth's magnetic field acts upon the magnetic material of the compass needle, causing it to align to the field. Thus, the compass appears to point North, which is "magnetic north". Magnetic north and "true north" are about 300 miles apart.