Beats me. But since there ARE no magnetic lines of force, don't worry about it.
because they are solid lines and they do not have space to be combining. Also the magnetic can stay together but not melt to being a diffusion (not liquid)
Perpendicular lines intersect each other at right angles which are 90 degrees Parallel lines never intersect each other and remain the equal distance apart. Intersecting lines form vertical opposite equal angles
because of their magnetic field lines
Forces that cancel each other out are called balanced forces.
It is approx 1087.6 N along the bisector of the two lines of action.
When a magnet's magnetic field lines are close together, it indicates a strong magnetic field. The magnetic field strength is higher, leading to more intense interactions with nearby objects and potentially stronger magnetic forces acting between the magnet and other magnetic materials.
The magnetic field is the invisible area where the forces of magnetic attraction or repulsion can be detected. This field extends around a magnet and can exert forces on other magnetic objects within its influence.
The neutral point of a magnetic field is the point in space where the magnetic field intensity is zero. At this point, the magnetic forces acting on a particle will cancel each other out, resulting in no net force. This occurs in regions where magnetic field lines from opposite directions meet and cancel each other.
Imaginary lines of force around a magnet are called magnetic field lines. They represent the direction and strength of the magnetic field. These lines provide a visual way to understand how magnetic fields behave and interact with other magnets or magnetic materials.
no according to the law governing forces,it shows that lines of forces can not cross each other
No, they don't.
The space surrounding a magnet in which the magnetic force acts is called a magnetic field. The magnetic field is the region where magnetic forces are generated and can influence other magnetic materials or moving charges.
When two magnets attract each other, the magnetic field lines curve from one magnet to the other in a continuous loop, showing the path of the magnetic force between them.
Electric forces and magnetic forces are both fundamental forces in nature that act on charged particles. Electric forces are created by the presence of electric charges, either attracting opposite charges or repelling like charges. Magnetic forces, on the other hand, are created by moving electric charges or magnetic materials, attracting or repelling based on the orientation of the magnetic field. While both forces involve the interaction of charged particles, electric forces are static and act on stationary charges, while magnetic forces are dynamic and act on moving charges.
When two magnets repel each other, the magnetic field lines will curve away from each other, showing a pattern of lines that do not intersect and point in opposite directions.
The two forces that cause the sun's magnetic field to become stronger and tangled are the differential rotation of the sun's layers, which creates a twisting effect on the magnetic field lines, and the convective motion of plasma within the sun, which amplifies and distorts the magnetic field. These processes can lead to the formation of sunspots, solar flares, and other solar activities.
Poles of a magnet are the regions where the magnetic field is strongest. There are two types of poles: the north pole and the south pole. Like poles repel each other, while opposite poles attract each other.