gravity
You need to do the experiment. If the magnet is strong enough, metal (steel, iron) will jump to the magnet (or pull the magnet towards it).
The force is called magnetism. Magnets have an invisible magnetic field that exerts a force on objects made of certain materials, such as iron, that are within the field. This force can attract or repel the objects without direct contact.
The spherical magnet will experience a force that will try to align it with the magnetic field of the bar magnet. Depending on the orientation of the spherical magnet and the bar magnet, it may either be attracted or repelled. If the polarity of the two magnets is aligned, they will be attracted to each other; if the polarity is opposite, they will be repelled.
The force exerted by a magnet on a metal object is known as magnetic force, which arises from the interaction of the magnet's magnetic field with the magnetic properties of the metal. This force can attract or repel the object, depending on the nature of the metal and the orientation of the magnetic field. The strength of the magnetic force depends on factors such as the distance between the magnet and the object, the strength of the magnet, and the magnetic properties of the material being attracted.
The 1kg magnet will exert a greater force on the 0.5kg piece of steel, causing them to move towards each other. The 0.5kg steel piece will accelerate faster towards the magnet due to the greater force acting on it by the magnet.
You need to do the experiment. If the magnet is strong enough, metal (steel, iron) will jump to the magnet (or pull the magnet towards it).
yes
The force is called magnetism. Magnets have an invisible magnetic field that exerts a force on objects made of certain materials, such as iron, that are within the field. This force can attract or repel the objects without direct contact.
A magnet can exert a force on non-magnetic objects through magnetic induction or attraction. This force can cause the non-magnetic object to be attracted to the magnet or to experience a magnetic field-induced movement or alignment.
you can hang as many paper clips as you want until the weight of the paper clips becomes more than the pulling force of the magnet
The magnetic force around a magnet can be a lot of things. Just some things are stronger and some are less strong. Copper is absolutely not magnetic at all, you can experiment that by trying to pick up a penny with a magnet. I am not sure what is the magnetic part of a magnet, but I think it might be close to iron. Something like that. I do know though what is attracted to magnets. Iron, bolt, paper clips, and the metal part on scissors.
Certain materials are attracted to magnets because they have unpaired electrons that align in the presence of a magnetic field, creating a magnetic force that pulls them towards the magnet.
Certain materials are attracted to magnets because they have magnetic properties that align with the magnetic field of the magnet, creating a force of attraction between the two. This attraction is due to the alignment of the magnetic domains within the material, which causes the material to be magnetized and attracted to the magnet.
A magnet can exert force on a non-magnetic object through magnetic induction, attraction, or repulsion. The non-magnetic object can be attracted towards the magnet or repelled away from it depending on their relative orientation.
Magnetic force. Nails and paper clips are often made of iron or steel which are attracted to magnets, allowing them to stick together.
The spherical magnet will experience a force that will try to align it with the magnetic field of the bar magnet. Depending on the orientation of the spherical magnet and the bar magnet, it may either be attracted or repelled. If the polarity of the two magnets is aligned, they will be attracted to each other; if the polarity is opposite, they will be repelled.
A magnet can exert a force over a distance because of its magnetic field. The field extends around the magnet and interacts with other magnetic materials or objects at a distance, causing them to be attracted or repelled. This force is the result of the alignment of magnetic moments within the material.