Technetium electron configuration , atomic mass , atomic number basics information in points

know all Technetium electron configuration , atomic mass , atomic number basics information in points ?

question : what is atomic mass and atomic number of Technetium element ?

answer : as we know Technetium element is denoted by ‘Tc’ symbol and Technetium has ’98’ atomic mass and ’43’ atomic number.

question : write the electron configuration of Technetium element ?

answer : Technetium electronic configuration is ”[Kr] 4d5 5s2”.

question : write some information about Technetium ?

answer : Technetium has melting point = 2,200

Technetium boiling point = 4,877

Technetium has density ‘11.5’ and it is found ”% on earth. Technetium belongs to group ‘7’.

some interesting facts of Technetium are given below –

Technetium is the forty-third element on the periodic table with the chemical symbol Tc. It is a radioactive metal that is not found naturally in the Earth’s crust but can be produced artificially. Technetium has several important applications in various fields, particularly in nuclear medicine.

One of the primary uses of technetium is in medical imaging and diagnostic procedures. Technetium-99m (Tc-99m), a radioactive isotope of technetium, is widely used in nuclear medicine imaging techniques such as single-photon emission computed tomography (SPECT). Tc-99m emits gamma radiation, which can be detected by specialized cameras to create detailed images of organs, bones, and tissues inside the body. It is used for various diagnostic purposes, including assessing heart function, evaluating blood flow, detecting tumors, and imaging the brain, liver, and kidneys.

Technetium-99m has several advantages for medical imaging. It has a short half-life, allowing for rapid imaging procedures without prolonged exposure to radiation. It also decays by emitting gamma radiation, which can pass through body tissues and be detected externally, making it safe for patients and healthcare professionals.

Technetium also has applications in industrial radiography. Radioactive isotopes of technetium, such as technetium-99, can be used as gamma-ray sources to inspect and examine the integrity of metal structures and welds in industrial settings. The gamma radiation emitted by technetium-99 allows for the detection of flaws, cracks, and structural abnormalities in materials.

It’s worth noting that while technetium has applications in medical imaging and industrial radiography, its radioactive nature and short half-life limit its use to specific purposes. Due to its scarcity and artificial production, technetium is not commonly used in other industries or everyday applications.

In summary, technetium’s primary application lies in medical imaging and diagnostics, particularly with the use of technetium-99m in nuclear medicine. Its gamma-emitting properties and short half-life make it suitable for creating detailed images of organs and tissues. Technetium’s role in industrial radiography is also notable, where it helps in inspecting the integrity of metal structures. However, due to its radioactive nature and limited availability, technetium is primarily utilized in specialized fields such as nuclear medicine and industrial applications that require radiation sources for testing and inspection purposes.