Technetium oxidation states are between -1 and +7; the most common are 4,5 and 7.
Technetium (Tc) typically has oxidation states ranging from -1 to +7, with the most common oxidation states being +4 and +7. The specific oxidation number of technetium in a compound depends on the overall charge and bonding characteristics of the compound.
Technetium oxidation states are between -1 and +7; the most usual valences are +3, +4 and +7.
Technetium primarily forms compounds in the +4, +5, +6, and +7 oxidation states. The most common oxidation states for technetium are +4 and +7.
Technetium can exist in various oxidation states, leading to different solubilities depending on its chemical form and the surrounding conditions. Generally, technetium tends to be more soluble in its lower oxidation states (e.g., Tc(IV)) compared to higher oxidation states (e.g., Tc(VII)). Technetium can form soluble pertechnetate (TcO4-) and colloidal species under certain conditions.
The atomic number of Technetium is 43.
Technetium has 43 protons.
Technetium can form numerous compounds due to its variable oxidation states. Some common compounds include technetium dioxide (TcO2), technetium trichloride (TcCl3), and technetium tetrafluoride (TcF4).
Technetium is located in Group 7 of the periodic table. It is a transition metal and has the atomic number 43. This group is characterized by elements that typically have similar properties, including the ability to form various oxidation states. Technetium is notable for being the first artificially produced element and is primarily used in nuclear medicine.
The atomic nucleus of technetium contain 43 protons and electrons.For each isotope the number of neutrons is different. Number of neutrons = Mass number of an Tc isotope - 43
Technetium has the symbol of Tc. It has the atomic number of 43.
Technetium was discovered in 1937 by Carlo Perrier and Emilio Segre. Technetium has the symbol Tc and the atomic number 43.
Technetium-95 has 43 protons and 52 neutrons. This can be determined by looking at its atomic number, which corresponds to the number of protons, and subtracting it from the atomic mass number to find the number of neutrons.