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Yes, a bar magnet is inherently magnetic due to its alignment of magnetic domains within the material. This alignment creates a magnetic field around the magnet that interacts with other magnetic material or objects.
The type of force in a bar magnet suspended freely is magnetic force. The magnet aligns itself with the Earth's magnetic field, resulting in a net force acting on the magnet.
When you dip a bar magnet into a pile of pins, the magnetic field of the bar magnet induces magnetism in the pins, causing them to become temporarily magnetized. As a result, the pins are attracted to the magnet and will stick to it. This phenomenon occurs because the magnetic domains within the pins align with the magnetic field of the bar magnet, allowing them to respond to the magnetic force. Once removed from the magnet, most pins will lose their magnetism and return to their non-magnetic state.
The small bar magnet has a stronger magnetic field, at least at short distances.
A magnet is an object that is magnetic if it displays magnetic properties. Think of it like this; If bar magnet attracts a piece of metal towards it, it is using magnetism (fluxuations in electric current) and therefore the magnet can be said to have magnetic properties.
Yes, a bar magnet is magnetic.
Yes, a bar magnet is magnetic.
The magnetic field is strongest at the poles of a bar magnet.
Yes, a bar magnet is inherently magnetic due to its alignment of magnetic domains within the material. This alignment creates a magnetic field around the magnet that interacts with other magnetic material or objects.
Yes, a bar magnet is magnetic.
At the center of a bar magnet, the magnetic field lines converge and form a strong magnetic field. This region is referred to as the magnetic core of the magnet, where the magnetic strength is at its maximum. This is why the bar magnet's strongest magnetic force is typically concentrated in its center.
near both magnetic poles
A bar magnet interacts with the magnetic field around it by creating a magnetic force that attracts or repels other magnets or magnetic materials. The magnetic field around the bar magnet is strongest at the poles and weaker in between, causing magnetic materials to align with the field.
Move towards the U magnet so that the poles attach.
The type of force in a bar magnet suspended freely is magnetic force. The magnet aligns itself with the Earth's magnetic field, resulting in a net force acting on the magnet.
A magnetic field diagram illustrates the direction and strength of the magnetic field around a magnet. It can be used to visualize the magnetic field lines, which show how the magnetic force is distributed in space around the magnet. By looking at the diagram, one can understand the pattern of the magnetic field and how it interacts with other objects or magnets in its vicinity.
A bar magnet would align itself with the Earth's magnetic field in a north-south direction. One end of the bar magnet would point towards the magnetic north pole while the other end points towards the magnetic south pole. This alignment is due to the interaction between the magnetic field of the planet and the magnetic properties of the bar magnet.