Yes. Just ensure the the like poles are facing each other. Like poles repel.The two magnets that are attracting are effectively one magnet.It would look like this:-([-magnet 1+]first pair attracting[-magnet 2+])++(+[magnet 1-]second pair repelling[-magnet 2+])+
No. The north sides of two magnets do not stick together because they have the same polarity. The north and south sides of a magnet, however, do stick together because they are on opposite poles and, pertaining to magnets, opposites attract. actually if you push two repelling magnets together so they touch they will stick, without flipping, not entirely sure why they don't repel but it seems that the magnetic fields somehow overlap, so that within the repelling field there is a small of the attracting field, i know this isn't true of the attracting side because the magnets stick together regardless, but on the repelling side when they touch they will stick
No. The same two magnets can either repel each other or attract each other, depending on how you turn them. The force is the same either way.
Gravity, which is the fundamental force in the macroscopic physical world in which we live, is universally attractive. There is no equal repelling force such as anti gravity. Repelling forces such as those that occur with the weak, strong and electro-magnetic forces only take place at the microscopic level.
repelling force
Because in order for them to be magnetized - they must be polar opposites
Yes. Just ensure the the like poles are facing each other. Like poles repel.The two magnets that are attracting are effectively one magnet.It would look like this:-([-magnet 1+]first pair attracting[-magnet 2+])++(+[magnet 1-]second pair repelling[-magnet 2+])+
You can observe them attracting or repelling each other.
No. The north sides of two magnets do not stick together because they have the same polarity. The north and south sides of a magnet, however, do stick together because they are on opposite poles and, pertaining to magnets, opposites attract. actually if you push two repelling magnets together so they touch they will stick, without flipping, not entirely sure why they don't repel but it seems that the magnetic fields somehow overlap, so that within the repelling field there is a small of the attracting field, i know this isn't true of the attracting side because the magnets stick together regardless, but on the repelling side when they touch they will stick
No. The same two magnets can either repel each other or attract each other, depending on how you turn them. The force is the same either way.
i dontd think so
The two magnets would push each other apart until friction takes-over, then there'd be no more motion.
Ask your doctor.
The north sides of two magnets do not stick together because they have the same polarity. The north and south sides of a Does_north_stick_to_north_for_magnets, however, do stick together because they are on opposite poles and, pertaining to magnets, opposites attract.actually if you push two repelling magnets together so they touch they will stick, without flipping, not entirely sure why they don't repel but it seems that the magnetic fields somehow overlap, so that within the repelling field there is a small of the attracting field, i know this isn't true of the attracting side because the magnets stick together regardless, but on the repelling side when they touch they will stick It doesn't. A magnet's North will attract another magnet's South and vice versa
Yes. I used a wheel and placed magnets all around it, then I spun the wheel and placed another magnet in front of the wheel and thought that the wheel would keep spinning due to the magnets repelling each other but it didn't work.
Fuel helps but electrical energy is converted to mechanical energy through a motor, a machine with magnets that converts the electrical current into mutually repelling magnets causing mechanical motion.
An electric motor is made up of magnets .. some electric induced magnets , some permanent magnets . the electric magnets are arranged so that when the power is turned on they activate in a series of pulsing magnets.. this pulsing causes the magnets in the core and the magnets in the body of the motor to repel and attract as magnets will do .. this repelling and attracting causes the magnets to try and chase each other around .. this action is turning the core of the motor and producing the rotating action expected from an electric motor