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Because group 1 does not have all of the electrons it needs so it steals electrons from group 17 so it can have the amount it needs because an atom needs 8 electrons in the outer layer.
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β 13y ago
Group 16 (oxygen family) wants to bond with members of group 2 (alkali earth metals) because group 2 elements readily donate their outermost electron to group 16 elements, forming stable ionic compounds. This electron transfer allows both groups to achieve a more stable electron configuration.
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β 11y agobecause they have the same reactivity :)
Wiki User
β 11y agoGroup 7
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What are the maximum number of bonds that can be farmed for each group in the peridic table?
Group 1 elements can form 1 bond, Group 14 can form 4 bonds, Group 16 can form 2 bonds, and Group 17 can form 1 bond.
What group does sulphar belong to?
Sulfur belongs to Group 16 of the periodic table, also known as the chalcogens. Members of this group share similar chemical properties and include elements such as oxygen, selenium, and tellurium.
What is most likely to gain two electrons when forming an ionic bond?
An element in group 16/VIA, such as oxygen, is most likely to gain two electrons when forming an ionic bond. This is due to the fact that the atoms of the elements in group 16/VIA have six valence electrons and require two more to get a filled valence shell of 8 electrons (octet rule).
If a group of 8 is an octet what is a group of 16 called?
A group of 16 is called a sextet.
Which group contains whose atoms have six electrons in their outer level?
Group 16 (group 6A)
What group of elements gain two valence electrons when the atom form ionic bond?
Group 16 or the chalcogens.
How many members in president's advisory group?
In the President's Foreign Intelligence Advisory Board there are 16 members
What are the maximum number of bonds that can be farmed for each group in the peridic table?
Group 1 elements can form 1 bond, Group 14 can form 4 bonds, Group 16 can form 2 bonds, and Group 17 can form 1 bond.
What family is beryllium most reactive with?
Beryllium react with the members of halogens family (group 17) and chalcogens (group 16).
Compounds contains an ionic bond?
In general, when an element in group 1 or group 2 combines with elements in group 16 or group 17, ionic bonds are formed between the two elements.
Which element would not make a good electron pair donor in a formation of a coordinate covalent bond?
Noble gases would not make good electron pair donors in the formation of a coordinate covalent bond because they have a full outer shell of electrons and are generally unreactive.
What group does sulphar belong to?
Sulfur belongs to Group 16 of the periodic table, also known as the chalcogens. Members of this group share similar chemical properties and include elements such as oxygen, selenium, and tellurium.
What is oxygen's group or family name?
Oxygen belongs to Group 16 on the periodic table, also known as the chalcogens or oxygen group. Members of this group have six valence electrons and commonly form compounds with oxygen.
What is most likely to gain two electrons when forming an ionic bond?
An element in group 16/VIA, such as oxygen, is most likely to gain two electrons when forming an ionic bond. This is due to the fact that the atoms of the elements in group 16/VIA have six valence electrons and require two more to get a filled valence shell of 8 electrons (octet rule).
Elements which have high electronegativities occur in Group?
Elements with high electronegativities are typically found in Group 17, the halogens, and in Group 16, the chalcogens, of the periodic table. These elements have a tendency to attract electrons towards themselves in a chemical bond.
If a group that has 460 members and 14 percent of the group voted to change it's bylaws and 16 percent voted against the change how many people did not vote?
70%, or approximately 322 people
What group might group 16 most readily react with?
Group 16 elements, also known as chalcogens, would most readily react with group 2 elements (alkaline earth metals) to form compounds. This reaction typically involves the transfer of electrons from the alkaline earth metal to the chalcogen to achieve a stable electron configuration. Examples include reactions between oxygen (a group 16 element) and magnesium (a group 2 element) to form magnesium oxide.
