A magnetic field is stronger when the magnets are closer together, and weaker when they are farther apart. The strength of a magnetic field also depends on the material the magnets are made of and their physical size.
If the size of a magnet is changed, it can affect the overall strength of the magnetic field it produces. Generally, a larger magnet will have a stronger magnetic field, while a smaller magnet will have a weaker magnetic field. However, other factors such as the magnet's composition and shape can also influence the strength of the magnetic field.
The strength of a magnet can be determined by measuring its magnetic field using a magnetometer or a compass. The stronger the magnetic field, the stronger the magnet.
coz if you try to attract a weak and a weak side it wont stick. same with the strong and strong side. But if you put a strong side next to a weak side it will attach. When a strong magnet is brought nearby the domains line up more closely with the magnetic field. The result of this reorientation is an overall magnetization of the weaker magnet.
The Earth's magnetic field is approximately 100 times weaker than a typical fridge magnet. However, it is strong enough to protect the planet from harmful solar wind and cosmic rays.
Room temperature magnet has more stable magnetic properties, allowing it to generate a stronger magnetic field consistently. Hot or cold temperatures can affect the magnet's ability to magnetize, resulting in a weaker magnetic field and less attraction force on the paper clips.
If the size of a magnet is changed, it can affect the overall strength of the magnetic field it produces. Generally, a larger magnet will have a stronger magnetic field, while a smaller magnet will have a weaker magnetic field. However, other factors such as the magnet's composition and shape can also influence the strength of the magnetic field.
This is because of the polarity of the magnetic field and how north interact with south. In the middle of the magnet, the magnetic field is sort of neutral. The further away from middle and the stronger the force will be.
The strength of a magnet can be determined by measuring its magnetic field using a magnetometer or a compass. The stronger the magnetic field, the stronger the magnet.
The size of a magnet does not necessarily determine how many paper clips it can hold. The strength of the magnet, which is measured by its magnetic field, is what determines how many paper clips it can hold. A smaller magnet with a stronger magnetic field may be able to hold more paper clips than a larger magnet with a weaker magnetic field.
Not if the magnet is symmetrical, and you define 'strength' in terms of flux density.Yes because it has a stronger attraction rate.there is no stronger or weaker for a magnet
The magnetic field around a magnet is strongest at the poles of the magnet. The field lines are most concentrated and closely packed near the poles, where the magnetic force is the strongest. At the center of the magnet, the field strength is typically weaker.
When the external magnetic field is removed, the magnetic domain in a magnet can produce a weaker magnet due to randomization of the magnetic moments within the domains, causing them to lose alignment. This results in a decrease in the overall magnetic field strength of the magnet.
The magnetic field is stronger at the poles.
coz if you try to attract a weak and a weak side it wont stick. same with the strong and strong side. But if you put a strong side next to a weak side it will attach. When a strong magnet is brought nearby the domains line up more closely with the magnetic field. The result of this reorientation is an overall magnetization of the weaker magnet.
In reality no. Though the size of a magnet does seem to affect the size of a magnetic field, it is in effect a ratio of volume, and does not change the effect of the magnetic field. The potential magnetism is not affected by size so much as composition of the magnet.
Not if the magnet is symmetrical, and you define 'strength' in terms of flux density.Yes because it has a stronger attraction rate.there is no stronger or weaker for a magnet
The Earth's magnetic field is approximately 100 times weaker than a typical fridge magnet. However, it is strong enough to protect the planet from harmful solar wind and cosmic rays.