Technetium is a solid metal.
The "m" in 99mTc indicates that the technetium is in a metastable state. This means that the technetium is in an excited nuclear state that will decay to a more stable state by emitting gamma radiation. Metastable technetium is commonly used in nuclear medicine imaging.
The symbol for technetium is Tc. It is a synthetic element with the atomic number 43. Technetium is commonly used in nuclear medicine for diagnostic imaging.
Technetium has the symbol of Tc. It has the atomic number of 43.
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-99m is a metastable nuclear isomer of technetium-99. Technetium-99m is commonly used in medical imaging due to its short half-life and ability to emit gamma rays, while technetium-99 is a radioactive isotope with a longer half-life that is used for various medical and industrial applications, such as in radiopharmaceuticals and nuclear medicine.
Technetium is a solid metal.
Technetium is a solid metal.
Technetium is a solid metal.
Technetium is a solid metal.
Technetium oxidation states are between -1 and +7; the most usual valences are +3, +4 and +7.
The "m" in 99mTc indicates that the technetium is in a metastable state. This means that the technetium is in an excited nuclear state that will decay to a more stable state by emitting gamma radiation. Metastable technetium is commonly used in nuclear medicine imaging.
solid
Technetium-99m exists as a metastable isomer, meaning it is in a higher energy state but has a relatively long half-life compared to other technetium isotopes. It decays by emitting gamma radiation, making it useful for medical imaging procedures.
Technetium is not from Japan.
Technetium is a metal.
Technetium is not a material to be sold to anyone on the counter.
The Brinell hardness of technetium is 112.The Vickers hardness of technetium is 151.