The distance at which a magnet can attract certain objects depends on several factors, including the strength of the magnet, the material of the object, and the presence of other materials or magnetic fields. Generally, stronger magnets, like neodymium magnets, can exert a noticeable attraction over several centimeters, while weaker magnets may only attract objects from a few millimeters away. However, for most common ferromagnetic materials, the attraction diminishes rapidly with distance.
No, you cannot attract Jupiter with a magnet regardless of its size. Jupiter is a gas giant composed mostly of hydrogen and helium, lacking a significant magnetic or metallic core that could be influenced by a magnet.
It is so far experimentally impossible to separate the North Pole from the South Pole. Even if you cut the magnet into little pieces, it'll still remain a magnet because there will still be a North pole and a South Pole
it can pick up anything with iron nickel or cobalt
Magnets are just certain minerals that create a strong magnetic field. Everything in the universe, down to our atoms, creates a magnetic field (which is why you can't walk through walls, even though the atoms in you are relatively far apart from one another). Some metals (such as iron) have a magnetic field that is attracted to the field from a magnet. So, the two objects, if given the opportunity, will try to go nearer to each other.
magnetic pull
No, you cannot attract Jupiter with a magnet regardless of its size. Jupiter is a gas giant composed mostly of hydrogen and helium, lacking a significant magnetic or metallic core that could be influenced by a magnet.
The magnetic force weakens with distance, so the magnet may be unable to exert enough force to pick up the paper clip when it is far away. The strength of the magnetic field decreases rapidly with distance, which is why the magnet can only attract objects that are close to it.
Unfortunately this question needs more detail to answer. Are you asking about how far apart a magnet and a paperclip are if they're touching (# of atoms), or how far apart the magnet at my house is from the paperclip in china, or how far apart a magnet has to be from a paperclip before it starts to create a pull (even this would need more details, what size of magnet, what strength, what size of paperclip)?
No, the Cullen family members do not have superhuman hearing abilities. They have enhanced senses to a certain degree, but not to the extent where they can hear things from far away.
Without it you cannot tell for certain how far things are away from you. This can be very dangerous.
No, gold is not magnetic. A gold coin that is attracted to a magnet is almost certainly gold plated over an iron or nickel base (though nickel is far less magnetic).
The distance at which magnets can attract each other depends on the strength of the magnets. Generally, the attractive force decreases as the distance between two magnets increases, following an inverse square law. For small magnets, the typical attraction distance is a few inches, but for larger or stronger magnets, it can be several feet.
When you move the bar magnet far away from the nails, the magnetic field surrounding the magnet weakens significantly. As a result, the magnetic force acting on the nails decreases, causing them to lose their magnetized state and fall off.
By sprinkling iron fillings around a magnet the magnetic field can be shown. If the magnet is the opposite charge then the iron they will be repelled by the magnet showing how far the magnetic field reaches.
It is so far experimentally impossible to separate the North Pole from the South Pole. Even if you cut the magnet into little pieces, it'll still remain a magnet because there will still be a North pole and a South Pole
Magnets can get stronger by being exposed to strong external magnetic fields that align the magnetic domains within the material. Additionally, heating a magnet above its Curie temperature and then cooling it in the presence of a magnetic field can help increase its strength. Using materials with higher magnetic properties can also lead to stronger magnets.
as far as i know i do not think so