No, they don't.
No, electric field lines cannot cross each other because they represent the direction of the electric field at any given point, and if they were to cross, it would imply that the electric field has multiple directions at that point, which is not physically possible.
Lines of force don't exist. They can't cross each other because they aren't there. The common (related) demonstration of magnetic lines of force using iron filings works because of the fact that the iron filings become little magnets and line up head to tail. If you photograph them and re-run the experiment you will see that the lines are different, which shows that they are an "artifact" of the magnetic field. No actual lines exist.
Some common misconceptions about electric field questions include thinking that electric field lines represent the path of charged particles, believing that electric field strength is the same as electric potential, and assuming that electric field lines can cross each other.
Electric field lines do not cross each other because the electric field at any point is determined by the net effect of all the charges in the vicinity. If field lines were to cross, it would imply that two different field strengths or directions would be acting on the same point, which is not physically possible. This principle is based on the superposition principle in physics.
The direction of an electric field is indicated by the direction in which the electric field lines point. Electric field lines point away from positive charges and towards negative charges. The closer the field lines are together, the stronger the electric field in that region.
No, electric field lines cannot cross each other because they represent the direction of the electric field at any given point, and if they were to cross, it would imply that the electric field has multiple directions at that point, which is not physically possible.
yes
Lines of force don't exist. They can't cross each other because they aren't there. The common (related) demonstration of magnetic lines of force using iron filings works because of the fact that the iron filings become little magnets and line up head to tail. If you photograph them and re-run the experiment you will see that the lines are different, which shows that they are an "artifact" of the magnetic field. No actual lines exist.
Some common misconceptions about electric field questions include thinking that electric field lines represent the path of charged particles, believing that electric field strength is the same as electric potential, and assuming that electric field lines can cross each other.
Electric field lines do not cross each other because the electric field at any point is determined by the net effect of all the charges in the vicinity. If field lines were to cross, it would imply that two different field strengths or directions would be acting on the same point, which is not physically possible. This principle is based on the superposition principle in physics.
The lines in each diagram represent an electric field. The stronger the field, the close together the lines are.
Magnetic field lines don't cross.
The direction of an electric field is indicated by the direction in which the electric field lines point. Electric field lines point away from positive charges and towards negative charges. The closer the field lines are together, the stronger the electric field in that region.
true
Magnetic field lines always form closed loops, while electric field lines begin and end on charges. Additionally, magnetic field lines do not originate from monopoles, while electric field lines can begin and end on electric charges.
The lines in each diagram represent an electric field. The stronger the field, the close together the lines are.
You can draw electric field lines closer together to show a stronger electric field. The density of the lines represents the intensity of the field - the closer the lines, the stronger the field.