Chemistry: Names of Selenium and Tellurium Oxyanions

What are the names of the oxyanions of selenium and tellurium: SeO₄²⁻, SeO₃²⁻, TeO₄²⁻, TeO₃²⁻ ?

Final answer:

The oxyanions of selenium and tellurium are selenate (SeO₄²⁻), selenite (SeO₃²⁻), tellurate (TeO₄²⁻), and tellurite (TeO₃²⁻).

'Ate' ending indicates more oxygen, whereas 'ite' ending indicates less.

Answer:

The oxyanions you're asking about are named as per the guidelines of the International Union of Pure and Applied Chemistry (IUPAC). Selenium (Se) and Tellurium (Te) are part of the Oxygen family and form similar oxyanions. For selenium, the oxyanion with four oxygens is called Selenate (SeO₄²⁻), and the one with three oxygens is called Selenite (SeO₃²⁻). Similarly, for tellurium, the oxyanion with four oxygens is called Tellurate (TeO₄²⁻), and the one with three oxygens is named Tellurite (TeO₃²⁻). The 'ate' ending usually signifies more oxygen atoms, whereas the 'ite' ending signifies fewer oxygen atoms.

In chemistry, oxyanions refer to negatively charged ions that contain oxygen. Elements in the same family often form oxyanions with similar structures and properties. Selenium and tellurium, which are in the same family, also follow this pattern.

Selenium forms oxyanions known as selenate (SeO₄²⁻) and selenite (SeO₃²⁻). Selenate has four oxygen atoms, while selenite has three oxygen atoms. The names of these oxyanions are derived based on the number of oxygen atoms and the element name (selenium in this case).

Similarly, tellurium produces oxyanions called tellurate (TeO₄²⁻) and tellurite (TeO₃²⁻). Tellurate contains four oxygen atoms, while tellurite contains three oxygen atoms. The naming convention follows the same 'ate' and 'ite' endings to indicate the amount of oxygen present.

Understanding the naming system of oxyanions is essential in chemistry as it provides information about the composition and structure of these ions. By knowing the names of oxyanions, scientists can predict their behavior and interactions in chemical reactions.

← How to calculate vapor pressure of liquid silver Chemical equilibrium understanding kc in reactions →