[Answer] The most acidic oxides are formed from elements found in the _________________ region of the periodic table.

Answer: Upper right
The most acidic oxides are formed from elements found in the _________________ region of the periodic table.
The periodic table also known as the periodic table of elements is a tabular display of the chemical elements which are arranged by atomic number electron configuration and recurring chemical properties.The structure of the table shows periodic trends.The seven rows of the table called periods generally have metals on the left and nonmetals on the right.
Group 4 is the second group of transition metals in the periodic table . It contains the four elements titanium (Ti) zirconium (Zr) hafnium (Hf) and rutherfordium (Rf). The group is also called the titanium group or titanium family after its lightest member.. As is typical for early transition metals zirconium and hafnium have only the group oxidation state of +4 as a major one and are …
Oxide – Wikipedia
Oxide – Wikipedia
Periodic table – Wikipedia
Wed Aug 27 2003 14:30:00 GMT-0400 (Eastern Daylight Time) · Group 3 is the first group of transition metals in the periodic table . This group is closely related to the rare earth elements .Although some controversy exists regarding the composition and placement of this group it is generally agreed among those who study the matter that this group contains the four elements scandium (Sc) yttrium (Y) lutetium (Lu) and lawrencium (Lr).
The chalcogens (/ ˈ k æ l k ə dʒ ɪ n z /) are the chemical elements in group 16 of the periodic table .This group is also known as the oxygen family.It consists of the elements oxygen (O) sulfur (S) selenium (Se) tellurium (Te) and the radioactive element polonium (Po). The chemically uncharacterized synthetic element livermorium (Lv) is predicted to be a chalcogen as well.
Wed May 16 2001 14:30:00 GMT-0400 (Eastern Daylight Time) · Metals tend to form basic oxides non-metals tend to form acidic oxides and amphoteric oxides are formed by elements near the boundary between meta…

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