When a nail and a paperclip stick together due to magnetism, it is called magnetic attraction. This occurs because both the nail and paperclip are made of ferromagnetic materials, which are attracted to each other by magnetic force.
The mass of a paperclip is about 1 gram.
A paperclip ranges between 1-2 inches in length.
A standard paperclip typically weighs about 1 gram.
A standard paperclip typically measures about 25mm in length.
The number of bends needed to break a paperclip will vary depending on the thickness and quality of the paperclip. On average, it may take around 10-15 bends to break a standard paperclip.
However, if you bring a magnet near a piece of iron, such as a nail,and the paperclip. If the paperclip does not fall then the magnetic field has the iron nail. The result is a temporary magnet called an 'electromagnet'. The magnets either stick together or are suspended in midair
They are not attracted to each other because they are not magnetic.
If you hold a nail or paperclip near a coil that has an electric current passing through it, the magnetic field generated by the coil may induce a temporary magnetic field in the nail or paperclip. This can cause the nail or paperclip to be attracted to the coil or even become magnetized themselves.
A paperclip attracts to a nail due to magnetism. If the nail is made of iron, it can become magnetized when exposed to a magnetic field. The paperclip, often made of a ferromagnetic material, is drawn to the nail because it responds to the magnetic field created by the nail, resulting in an attractive force between them. This phenomenon is a demonstration of the principles of magnetism and electromagnetic attraction.
a penny
A magnet can attract a paperclip by creating a magnetic field that pulls the iron-based metal of the paperclip towards it. This attraction is known as magnetic force, and it causes the paperclip to stick to the magnet.
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The iron nail would stick to a magnet. Copper is not attracted to magnets.
Yes.
A steel nail and a magnet can stick together because steel is a ferromagnetic material. This means that it can be magnetized and will be attracted to a magnet. When a magnet is brought close to a steel nail, the magnetic field can cause the nail to become magnetized, leading to attraction. However, if the nail is not magnetized or if the magnet is too weak, they may not stick together.