The significance of silver having very low resistivity is that it allows electricity to flow through it easily, making it an excellent conductor of electricity. This property makes silver valuable in various applications, such as in electronics and electrical wiring, where efficient conduction of electricity is important.
Silver has one of the lowest resistivities among all metals, making it an excellent conductor of electricity. This is why it is commonly used in applications where high conductivity is required, such as in electrical wiring and circuitry.
No, resistivity cannot be negative. Resistivity is a material property that indicates how strongly a material opposes the flow of electric current. It is always a positive quantity, even though some materials may have very low resistivity values.
Argon has a low electrical resistivity. It is a noble gas with very few free electrons available to carry an electric current, resulting in poor conductivity.
The resistivity of SF6 is very high, around 1000 times greater than air. The permeability of SF6 is also very low, making it a good insulator and ideal for use in electrical equipment where high insulation properties are needed.
No, silver is very similar to gold and is not magnetic. It does not turn magnetic on its own however in a magnetic field it magnetizes to a very little extent.
Cobalt is not a very good conductor as copper or silver; the electrical resistivity is 62,4 nohm.m
The best electrical conductor known is silver, not copper. Electrical resistivity of silver: 1,59.10-8 ohm.m Electrical resistivity of copper: 1,68.10-8 ohm.m A good electrical conductor has a very low electrical resistivity and a high electrical conductivity (the same principles for the thermal conductivity).
It is a metallic element with a very low resistivity, so current is able to flow through silver relatively easily. Current actually flows through silver easier than gold.
Silver has one of the lowest resistivities among all metals, making it an excellent conductor of electricity. This is why it is commonly used in applications where high conductivity is required, such as in electrical wiring and circuitry.
No, resistivity cannot be negative. Resistivity is a material property that indicates how strongly a material opposes the flow of electric current. It is always a positive quantity, even though some materials may have very low resistivity values.
Copper is good for use for electrical wiring because it has very low resistivity and is therefore an excellent conductor of electricity. It is not nearly as good a conductor as silver, but it is a lot less expensive.
Because copper has a very low electrical resistivity of 16.78 nΩ·m, meaning it's easier for electricity to pass through it. For comparison, nickel has a resistivity of 69.3 nΩ·m and iron's resistivity is 96.1 nΩ·m.
Argon has a low electrical resistivity. It is a noble gas with very few free electrons available to carry an electric current, resulting in poor conductivity.
The resistivity of SF6 is very high, around 1000 times greater than air. The permeability of SF6 is also very low, making it a good insulator and ideal for use in electrical equipment where high insulation properties are needed.
now the silver is closing very slowly
If we talk about an electric wire with the same length and weight, then metal sodium has the lowest resistivity. Its conductivity is much better than silver, copper or aluminum, but it strongly reacts with oxygen or water. Also lithium and calcium are better conductors than silver (at the same wire length and weight), but are very reactive as well.
Those which have resistivity in between conductors and insulators are known as semi conductors. Germanium and Silicon are very good examples of semiconducting materials whose resistivity of the order of 10 -2 to 10 4 ohm meter.