Bar magnets interact with iron filings by creating a magnetic field that causes the iron filings to align along the magnetic field lines, forming patterns that show the shape and direction of the magnetic field.
Iron filings interact with a bar magnet by aligning themselves along the magnetic field lines produced by the magnet. This creates a visible pattern that shows the shape and direction of the magnetic field.
When a bar magnet is placed under a sheet of paper with iron filings on top, the iron filings align along the magnetic field lines of the magnet, showing the direction and strength of the magnetic field.
Bar magnets interact with each other through magnetic forces. Like poles repel each other, while opposite poles attract each other. This interaction is due to the alignment of magnetic domains within the magnets, creating a magnetic field that influences the behavior of the magnets when they are brought close together.
Bar magnets interact with each other through magnetic forces. When two bar magnets are brought close together, they can either attract or repel each other depending on the orientation of their poles. Like poles repel each other, while opposite poles attract. These interactions can cause the magnets to move towards or away from each other, influencing their positions and orientations.
When two bar magnets are brought close together, their magnetic fields interact. Like poles repel each other, while opposite poles attract. This interaction is due to the alignment of the magnetic domains within the magnets.
Iron filings interact with a bar magnet by aligning themselves along the magnetic field lines produced by the magnet. This creates a visible pattern that shows the shape and direction of the magnetic field.
When a bar magnet is placed under a sheet of paper with iron filings on top, the iron filings align along the magnetic field lines of the magnet, showing the direction and strength of the magnetic field.
Iron filings can be used to map the magnetic fields on a magnet by putting pieces of irons on a piece of paper,pass the magnet under the paper,and the side which has more iron filling is the north pole and the side which has less iron filling is the south pole.
Aluminum and iron can be differentiated because iron is magnetic and aluminum is not. To separate them, expose the filings to a magnetic source and the iron will separate.
by using a bar magnet,because iron fillings are magnetic and hence it gets attracted to that bar magnet
The poles of a magnet are the ends of the core of the magnet, where the lines of force emerge. An experiment with iron filings shows the lines of force, by putting a sheet of paper over the magnet and sprinkling fine iron filings. This is an easy thing to do at home. For a bar magnet the poles will be at opposite ends. If you have two such magnets you can experiment and find that like poles repel, opposite poles attract.
The iron filings align along the magnetic field lines when sprinkled over a bar or horseshoe magnet. This creates a visual representation of the magnetic field around the magnet. The filings cluster at the poles of the magnet where the magnetic field is strongest.
Bar magnets interact with each other through magnetic forces. Like poles repel each other, while opposite poles attract each other. This interaction is due to the alignment of magnetic domains within the magnets, creating a magnetic field that influences the behavior of the magnets when they are brought close together.
Bar magnets interact with each other through magnetic forces. When two bar magnets are brought close together, they can either attract or repel each other depending on the orientation of their poles. Like poles repel each other, while opposite poles attract. These interactions can cause the magnets to move towards or away from each other, influencing their positions and orientations.
You can differentiate between a bar of iron and a bar of copper by testing their magnetic properties - iron is attracted to magnets, while copper is not. A bar magnet will attract small iron objects, while a bar of copper will not be attracted.
they will stick together
They tend to align along the magnetic field lines.