On the top and bottom of the ring. If you have several they would join together to form a tube... in a series of north/south connections.
A bar magnet has two neutral points located at its midpoint, equidistant from both poles. These points are where the magnetic field strength is zero.
That you have placed the magnet towards the northern pole of the unmarked magnet. Like poles retract while opposite poles attract
The poles of a triangle magnet, like any bar magnet, are located at its two ends. One end is designated as the north pole, while the other is the south pole. Magnetic field lines emerge from the north pole and enter the south pole, creating a magnetic field around the magnet. In a triangle magnet, the poles are typically at the vertices, depending on its orientation and design.
A magnet with distinct north and south poles is called a "bar magnet." This type of magnet generates a magnetic field that has a direction, indicated by the orientation of its poles. The north pole of the magnet is attracted to the Earth's magnetic north, while the south pole is attracted to the Earth's magnetic south.
The place where magnetism is the strongest on a magnet is at the poles, which are located at the ends of the magnet. The magnetic field lines are most concentrated and strongest at the poles compared to other parts of the magnet.
Answer. Two properties of a magnet are: (i) A magnet always has two poles: north pole and south pole.
Without poles, it's not a magnet. It's just a bar. All magnets have north and south poles.
Six. Every bar magnet has 2 poles. If a bar magnet is broken, each resultant piece will be a bar magnet in its own right.
The magnetic field is strongest at the poles of a bar magnet.
poles
A bar magnet has two poles, a north and a south. When you break a bar magnet into to pieces, you create two bar magnets, each with a north and a south pole. So the total number of poles will then be four.
A bar magnet has two neutral points located at its midpoint, equidistant from both poles. These points are where the magnetic field strength is zero.
Like poles repel, opposites attract. So a N pole of one bar magnet will repel the N pole of another bar magnet. And the same applies to two S poles.
near both magnetic poles
The poles are situated at the ends of the bar magnet. The magnetic lines of force run through the magnet, emerge from one end, fold back around the length of the bar of the magnet, and curl back into the other end. The ends are the magnetic poles, and the magnetic lines of force emerge from one and re-enter the magnet at the other. You can see these lines by laying flat a piece of smooth paper over the magnet and sprinkling iron filings over the paper. Because they are light they will be easily moved into alignment by the magnetic field and will visually show the fields arrangement. (Using a piece of paper makes it easy to tidy up. Without it, the filings will stick to the magnet and be difficult to remove.)
I'm unable to display images, but I can describe them for you. A bar magnet is a straight magnet with north and south poles at opposite ends. A horseshoe magnet is shaped like a horseshoe, with both poles located at the ends of the curved section. A dumbbell magnet consists of two bar magnets joined at the center. Each magnet has its north pole connected to the south pole of the other magnet, creating a closed loop magnetic field.
You now have 2 bar magnets, each with half the magnetic force of the original.