transition metals
Yes, alkali metals such as lithium, sodium, and potassium are good conductors of electricity. This is because they have only one electron in their outer shell, making it easy for that electron to move and carry an electric current.
The elements on the left side of the periodic table, known as the alkali metals, are highly reactive and tend to form ionic compounds with nonmetals. They are good conductors of electricity and heat. Alkali metals are used in various applications, such as batteries, lighting, and pharmaceuticals.
The family name for groups 1B to 2B is the transition metals.
non-metals .... alkali metals....transition metals....alkali earth metals....rare earth metals....other metals....halogens....inert elements
Alkali metalsNonmetalsHalogens
Yes, alkali metals such as lithium, sodium, and potassium are good conductors of electricity. This is because they have only one electron in their outer shell, making it easy for that electron to move and carry an electric current.
no
The elements on the left side of the periodic table, known as the alkali metals, are highly reactive and tend to form ionic compounds with nonmetals. They are good conductors of electricity and heat. Alkali metals are used in various applications, such as batteries, lighting, and pharmaceuticals.
alkali metals, alkali earth, transition metals, non metals, halogens, noble gases
I believe that the answer you are looking for is Transition Metals.
There is Alkali Earth metals, and Transition Metals.
Alkali metals, transition metals, halogens or Transition metals, halogens, noble gases or Alkali earth metals, halogens, noble gases
The family name for groups 1B to 2B is the transition metals.
Alkali metals, Alkali Earth metals, Rare Earth metals, Transition metals, Non metals, Halogens, Inert gases
The inner transition metals are radioactive and are found in the f-block. These are commonly referred to as actinoids and are alkali metals.
transition elements are not as reactive as alkali metals or alkaline earth metals.. this is so because of the valence electronic configurations. alkali metals have ns1 configurations which have easy chances of loosing electrons so as to gain the stable state. Attaining a stable state is the law of nature. hence to attain it they have to redily donate electron. this is not so easily possible for the transition elements..
non-metals .... alkali metals....transition metals....alkali earth metals....rare earth metals....other metals....halogens....inert elements