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In metal conductors, electric current is the flow of electrons.
If you think to the metal iron - a metallic bonding exist.
Covalent bonding holds CuCl2 together. Covalent bonding is a shared electron pairing of electrons from a non-metal and a metal. For the sake of your chemistry professor's sanity please memorize the metals and nonmetals on the periodic table. In fact just memeorize the periodic table.
It's flow of electrons under directing external electric field.
Electrical energy is converted into light and heat when electric current flows through the metal filament of a light bulb.
Metals conduct electricity and electric current. Electric current is possible when charged particles are free to move. A metallic bond is the bond between a positive metal and the atoms in metal (metal atoms combined in regular patterns in which valence electrons are free to move from atom to atom). ~let me guess page 180 problem 16 haha physical science :)
In metal conductors, electric current is the flow of electrons.
Electric current in a metal conductor is carried by a wire. This wire has been specifically adapted to carry this current.
Covalent bonding is when 2 non metals bond together as opposed to ionic bonding when one metal and gas ion bond together.
the flow of electrons in a metal is called electric current . the conventional direction of electric current is shown from positive pole to negative pole
the metal
The bonding in transition metals involves both a "covalent" contribution and a metallic "cloud of electrons bond. Alkali metals just have the cloud of electrons to hold them together- hence softer and lower melting.
Metal or atomic bonding: electrons are not shared but pooled together in the "conductivity sea" of electrons
If you think to the metal iron - a metallic bonding exist.
it is ionic ofcoarse .. as ionic is metal (sodium) and a non metal (carbonate) bonding together
Covalent bonding holds CuCl2 together. Covalent bonding is a shared electron pairing of electrons from a non-metal and a metal. For the sake of your chemistry professor's sanity please memorize the metals and nonmetals on the periodic table. In fact just memeorize the periodic table.
There is no one definitive answer to this question. Some possible hypotheses that could be explored include: using electric current to prevent metal from rusting, using electric current to reverse the rusting process, or using electric current to promote the formation of a protective layer on metal that prevents rusting.