The group 1 metals, namely lithium, sodium, potassium, rubidium, cesium, and francium (although francium is exceedingly rare and unstable) all easily lose a single electron to form +1 ions. Many other metals (especially the group 2 metals) also readily give up electrons to form ions, although the group 1 elements are by far the most reactive in this regard.
The Alkali Metals, which are the elements in Group 1 of the periodic table, each have one lone electron in their valence shell. And each of these elements wants to get rid of that single electron. These metals, which include lithium, sodium, potassium, rubidium, caesium and francium, are the most likely to lose electrons.
Family members of the boron group, or Group 13, have three electrons in their outermost energy level. They readily form three covalent bonds and have properties that are influenced by having one s and two p orbitals available for bonding. The family members include boron, aluminum, gallium, indium, and thallium.
Only 1, It's has 3 Energy Levels and only one Electron in it's outermost level.Sodium has 1 Valence Electrons. remember that in each group 1,2, 13, 14, 15, 16, 17, and 18 every element has the same Valence electrons in each group. Like Group 1 they all have 1 valence electrons. Group 2 has 2, Group 13 has 3, Group 14 all have 4, Group 15 all have 5, Group 16 all have 6, Group 17 all have 7, and finally Group 18 all have 8 valence electrons. the other groups have zero Valence electrons. Got to Touchspin on google and theres a periodic table that has the valence electrons for everything. On the side of the webpage its the second button that has the table.sodium has 8 valence electrons hint. the number of valence electrons is equal to the group number the element is in1,2, or 7 im not sureEdit: the answer is 1 electron in the valence shell, with a valence of 7Just like the rest of the alkali metals, sodium has one valence electron. This is why sodium is so reactive and has a low ionization energy--it is "eager" to get rid of this valence electron to fulfill the octet rule.See links/related questions below.Sodium has 1 valence election, just like all it's friends in the 1A group. Hope this helps!
Yes they are, but however, they do not react at the same intensity and enthusiasm. Metalloids and be both nonmetals or metals.
Sodium is more reactive than lithium because sodium has an extra electron in its outer shell, making it easier for sodium to lose that electron and form a stable ion. This extra electron also makes sodium more likely to react with other substances to achieve a stable electron configuration.
Elements from Group 1, such as sodium and potassium, form compounds easily because they have one valence electron in their outermost electron shell. This makes them highly reactive and eager to lose this electron to achieve a stable electron configuration. Consequently, they readily form compounds with other elements by donating this electron.
The Alkali Metals, which are the elements in Group 1 of the periodic table, each have one lone electron in their valence shell. And each of these elements wants to get rid of that single electron. These metals, which include lithium, sodium, potassium, rubidium, caesium and francium, are the most likely to lose electrons.
All atoms want to do is make their valence shell full. In alkali metals they have all of their shells completely full except one valence electron. The alkali metals REALLY want to get rid of that electron, so they will react with many elements/compounds to get rid of that electron. In alkaline earth metals they have all of their shells completely full except for two valence electrons. They also want to get rid of those electrons but the alkaline earth metals are not as desperate to do so as the alkali earth metals which make the alkaline much less reactive than the alkali metals.
All atoms want to do is make their valence shell full. In alkali metals they have all of their shells completely full except one valence electron. The alkali metals REALLY want to get rid of that electron, so they will react with many elements/compounds to get rid of that electron. In alkaline earth metals they have all of their shells completely full except for two valence electrons. They also want to get rid of those electrons but the alkaline earth metals are not as desperate to do so as the alkali earth metals which make the alkaline much less reactive than the alkali metals.
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Delete the room then the group will go =/
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Family members of the boron group, or Group 13, have three electrons in their outermost energy level. They readily form three covalent bonds and have properties that are influenced by having one s and two p orbitals available for bonding. The family members include boron, aluminum, gallium, indium, and thallium.
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The Chinese secret group pledged to rid the country of foreign devils were called Boxers.
Only 1, It's has 3 Energy Levels and only one Electron in it's outermost level.Sodium has 1 Valence Electrons. remember that in each group 1,2, 13, 14, 15, 16, 17, and 18 every element has the same Valence electrons in each group. Like Group 1 they all have 1 valence electrons. Group 2 has 2, Group 13 has 3, Group 14 all have 4, Group 15 all have 5, Group 16 all have 6, Group 17 all have 7, and finally Group 18 all have 8 valence electrons. the other groups have zero Valence electrons. Got to Touchspin on google and theres a periodic table that has the valence electrons for everything. On the side of the webpage its the second button that has the table.sodium has 8 valence electrons hint. the number of valence electrons is equal to the group number the element is in1,2, or 7 im not sureEdit: the answer is 1 electron in the valence shell, with a valence of 7Just like the rest of the alkali metals, sodium has one valence electron. This is why sodium is so reactive and has a low ionization energy--it is "eager" to get rid of this valence electron to fulfill the octet rule.See links/related questions below.Sodium has 1 valence election, just like all it's friends in the 1A group. Hope this helps!
the un touchables