The element you are describing is likely a metal. Metals are typically solid at room temperature, have a high luster or shine, are good conductors of heat and electricity, and are malleable and ductile, meaning they can be hammered into thin sheets and drawn into wires, respectively.
Ionic compounds conduct electricity when dissolved. Sodium chloride is an example
Oh, dude, solid electric silver is basically just a fancy way of saying silver that conducts electricity really well. It's like the superhero of the silver world, making all those electrons flow smoothly and effortlessly. So yeah, if you need some bling that can also power your gadgets, solid electric silver is where it's at.
Both conduct electricity well, however salt water is a better conductor due to ions available.
Most ionic solids cannot conduct electricity in the solid phase. They only do so in the liquid phase. While they are solid, the ions in the ionic solid are fixed in their lattice so cannot move to conduct electricity whereas in the liquid phase, the ions are free and mobile and can act as charge carriers for electricity.
Electrolyte
Gold
The element you are describing is likely a metal. Metals are typically solid at room temperature, have a high luster or shine, are good conductors of heat and electricity, and are malleable and ductile, meaning they can be hammered into thin sheets and drawn into wires, respectively.
Several metals are ductile and malleable.
Ionic compounds conduct electricity when dissolved. Sodium chloride is an example
network solid
Silver is the best conducter, followed by copper then gold.
Platinum is a transition metal. Transition elements are both ductile and malleable, and conduct electricity and heat.
Oh, dude, solid electric silver is basically just a fancy way of saying silver that conducts electricity really well. It's like the superhero of the silver world, making all those electrons flow smoothly and effortlessly. So yeah, if you need some bling that can also power your gadgets, solid electric silver is where it's at.
In magnesium, electrons are the charge carriers that move when the metal conducts electricity. When a voltage is applied, free electrons are able to flow through the material, carrying the electric current.
Metals are the best conductors of heat and electricity due to the free movement of electrons within their atomic lattice structure. Metals such as copper, aluminum, and silver are commonly used in applications requiring high thermal and electrical conductivity.
A metal solid is likely to be the best conductor of an electric current due to its free electrons that can move easily through the material, allowing for efficient flow of electricity. Metals generally have high conductivity compared to other solid materials.