An element synthesized with 115 protons would belong to Group 15 (or Group 5A) in the Periodic Table. This group is known as the nitrogen group, consisting of elements such as nitrogen, phosphorus, arsenic, antimony, and bismuth.
You would find an element with 16 protons in Group 16 of the periodic table, which is also known as the oxygen group. Elements in this group include oxygen, sulfur, selenium, and tellurium.
An element with 120 protons and 2 electrons would belong to Group 2 of the periodic table, specifically in the alkaline earth metals group. This is because elements in Group 2 typically have 2 valence electrons, which determine their chemical properties.
An ionic bond can form between an element with 11 protons (sodium) and an element with 17 protons (chlorine) to create sodium chloride (table salt). Sodium will donate an electron to chlorine, resulting in a stable arrangement of electronic configuration in both atoms.
Antimony (Sb) is element number 51, which means it has 51 protons. So, 123Sb specifically would also have 51 protons.
The element you are referring to is iodine, which has 53 protons. Iodine is located in group 17 of the periodic table, also known as the halogens.
I don't know WHY, per say, but I know it would be metal. toodles.
Nitrogen is the element with 7 protons. It is place din period -2 and group-15.
You would find an element with 16 protons in Group 16 of the periodic table, which is also known as the oxygen group. Elements in this group include oxygen, sulfur, selenium, and tellurium.
An element with 120 protons and 2 electrons would belong to Group 2 of the periodic table, specifically in the alkaline earth metals group. This is because elements in Group 2 typically have 2 valence electrons, which determine their chemical properties.
The expected answer is element 115, Ununpentium, if that has been discovered. Among stable elements, the answer would be bismuth.
Any element with 7 protons would be Nitrogen
If you add 3 protons to lithium (which has 3 protons), you would create an element with 6 protons, which is carbon on the periodic table.
An ionic bond can form between an element with 11 protons (sodium) and an element with 17 protons (chlorine) to create sodium chloride (table salt). Sodium will donate an electron to chlorine, resulting in a stable arrangement of electronic configuration in both atoms.
Lithium
An element with 115 protons in its nucleus would likely be a metal. Elements with a large number of protons typically exhibit metallic properties due to their tendency to lose electrons and form positive ions.
The number of protons is the same as the atomic number of the element. for example if your element is magnesium with the atomic number 12 there would be 12 protons in the nucleus.
No, there can be no other element that has the same number of protons as sulfur, and that is because elements are defined by the number of protons that they have. Therefore no two elements can have the same number of protons; if they did, they would be the same element.