I'm not sure, but once my oven element burned out. I had to replace it, but once I did I made some awesome meatloaf.
Alkali metals group tends to form ions.They give single electron to gain positive charge.For example : Sodium give one electron to become Na+ ion.
The ionic charges of group 1 and 2 metals are +1 and +2 respectively. Group 15 & 16 the simple mono-atomic ions are -3 and -2. Group 17 ions are -1. This can be explained by the following elemnts in groups 1 and 2 lose 1 or 2 electrons respectively to achieve a noble gas configuration whereas groups 15, 16 and 17 gain electrons (3,2 1 respectively)
Group 2 elements (alkaline earth metals) commonly form 2+ ions by losing two electrons to achieve a stable noble gas configuration.
1: 1+ 2: 2+ 13: 3+ 14: 4+/- 15: 3- 16: 2- 17: 1- 18: Neutral Transition metals (elements between groups 2 and 13) are able to have varied charges that there is no real rule for.
Elements in group 16 of the periodic table, also known as the oxygen group, have six valence electrons. This group includes elements such as oxygen, sulfur, and selenium. These elements typically form -2 ions in chemical reactions.
Alkali metals group tends to form ions.They give single electron to gain positive charge.For example : Sodium give one electron to become Na+ ion.
The ionic charges of group 1 and 2 metals are +1 and +2 respectively. Group 15 & 16 the simple mono-atomic ions are -3 and -2. Group 17 ions are -1. This can be explained by the following elemnts in groups 1 and 2 lose 1 or 2 electrons respectively to achieve a noble gas configuration whereas groups 15, 16 and 17 gain electrons (3,2 1 respectively)
The group 2 elements form ions with a 2+ charge. For example, Mg2+ and Ca2+. The group 16 elements form ions with a 2- charge. For example, O2- and S2-.
Group 2 elements (alkaline earth metals) commonly form 2+ ions by losing two electrons to achieve a stable noble gas configuration.
1: 1+ 2: 2+ 13: 3+ 14: 4+/- 15: 3- 16: 2- 17: 1- 18: Neutral Transition metals (elements between groups 2 and 13) are able to have varied charges that there is no real rule for.
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.
Elements in group 16 of the periodic table, also known as the oxygen group, have six valence electrons. This group includes elements such as oxygen, sulfur, and selenium. These elements typically form -2 ions in chemical reactions.
elements of group 6 - colloum 10 gain 2 valence electrons when they form ionic bonds
Main group metals tend to lose electrons, forming a cation with the same number of electrons as the nearest noble gas. A main group nonmetal tends to gain electrons, forming an anion with the same number of electrons as the nearest, previous noble gas
The elements of group VI A require two electrons to complete the octet so they mostly form -2 ions as O-2, S-2
Elements located on the right side of the periodic table, particularly the nonmetals in Group 17 (the halogens), are most likely to form negative ions. These elements, such as fluorine and chlorine, have high electronegativities and readily gain electrons to achieve a stable electron configuration, forming anions. Additionally, elements in Group 16, like oxygen and sulfur, can also form negative ions by gaining electrons.
Group 16 or the chalcogens.