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

By   June 27, 2023

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

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

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answer : as we know Iodine element is denoted by ‘I’ symbol and Iodine has ‘126.905’ atomic mass and ’53’ atomic number.

question : write the electron configuration of Iodine element ?

answer : Iodine electronic configuration is ”[Kr] 4d10 5s2 5p5”.

question : write some information about Iodine ?

answer : Iodine has melting point = 114

Iodine boiling point = 184

Iodine has density ‘4.93’ and it is found ”% on earth. Iodine belongs to group ’17’.

some interesting facts of Iodine are given below –

Iodine is the fifty-third element on the periodic table with the chemical symbol I. It is a non-metallic element that appears as a lustrous purple-black solid at room temperature. Iodine and its compounds have several important applications and are essential for human health.

One of the primary uses of iodine is in the field of medicine. Iodine is an essential nutrient required by the human body for the synthesis of thyroid hormones. These hormones regulate metabolism and play a crucial role in growth and development. Iodine deficiency can lead to thyroid disorders, including goiter and intellectual disabilities. Iodine compounds, such as potassium iodide, are used as supplements to prevent and treat iodine deficiency.

Iodine is also utilized as an antiseptic. It has broad-spectrum antimicrobial properties and can kill bacteria, viruses, fungi, and protozoa. Iodine solutions, such as povidone-iodine, are commonly used as topical disinfectants for wounds, surgical instruments, and skin preparation before medical procedures. Iodine’s antiseptic properties make it effective in preventing infections.

Furthermore, iodine is used in the production of various chemicals and compounds. It is a key component in the manufacturing of inorganic iodides, which are used in the production of catalysts, pigments, and dyes. Iodine compounds are also employed in the synthesis of pharmaceuticals, X-ray contrast agents, and certain types of polymers.

Iodine has applications in the laboratory and analytical chemistry as well. It is used as a reagent for detecting the presence of starch in solutions. Iodine solutions can form a blue-black color when they react with starch, making it useful for qualitative and quantitative analysis in laboratories.

In addition, iodine has some niche applications. It is utilized in the production of iodized salt, which is a common dietary source of iodine. Iodized salt helps to prevent iodine deficiency in populations where iodine intake is inadequate. Iodine is also used in certain types of photography as a component of photosensitive compounds.

It’s important to note that iodine and its compounds are handled with care due to their toxicity and potential hazards. Proper precautions are taken during their production, use, and disposal to ensure safety and minimize environmental impacts.

In summary, iodine’s applications in medicine, antiseptics, chemicals, and laboratory analysis highlight its importance. Its role in human health as an essential nutrient and its use as an antiseptic demonstrate its significance in healthcare. The production of iodized salt and its niche applications further showcase its versatile nature. Overall, iodine plays a vital role in various aspects of human life and industry.