Home Education Periodic Tables: Its Prominent Trends and Significance 
Periodic Tables Its Prominent Trends and Significance 

Periodic Tables: Its Prominent Trends and Significance 

by Umeeka

Most students get frustrated finding periodic tables quite tricky and complicated. It’s a specific pattern known for presenting the periodic table which illustrates a unique aspect of a specific element whether it is about the size and electronic properties. The prominent periodic trends are known such as electron affinity, atomic radius, ionization energy, electronegativity, and so on. 

Periodic trends come from the arrangement of the periodic table and introduce chemists following an invaluable tool to have quickly predicted in the form of element’s properties. These Trends in Periodic Table work following the similar atomic structure of the elements following the respective group families or periods and go with the periodic nature of the elements. 

  • Electronegativity Trends – 

To put it in simple words, it is considered a chemical property. It means it indicates an atom’s ability to grab and bind with electrons. Talking about Electronegativity, it is a qualitative property where no particular method to calculate electronegativity is followed. Moreover, the most common way to quantify electronegativity is the Pauling scale (Table A2); the name was derived from the chemist Linus Pauling. The assigned numbers following the Pauling scale are dimensionless because of the qualitative nature of electronegativity. 

  • Ionization Energy Trends – 

The motto of the energy needed to get rid of an electron from a neutral atom following the gaseous phase indeed. Ionization energy is regarded as the opposite of electronegativity. The lower this energy goes, the more readily the atom turns into a cation. If the energy goes higher after that the atom will change into a cation. Generally, the right-side established elements hold higher ionization energy since their valence is required to be filled. Left side elements come up with low ionization energies because of their willingness to lose electrons and turn into action. Therefore, ionization energy goes up right from left to right following the periodic table. 

  • Electron Affinity Trends – 

As the name of this trend says it has its own, electron affinity is regarded as the feature of an atom to go with an electron. Apart from it, electron affinity is regarded as a quantitative measurement of the energy alternation which occurs when an electron is associated with a neutral gas atom. The more negative the electron affinity value, the higher an affinity of an atom for electrons goes. 

  • Atomic Radius Trends – 

The atomic radius is ½  the distance between the 2 atoms. It is a bit tricky since all atoms do not normally get bound together in the same way. Some are bound following the covalent bonds. Moreover, some are also attracted to each other following huge crystals and others and others go with metallic crystals. 

  • Significant And More – 

Here, it needs to be mentioned that the periodic table is important since it makes it possible to impart an ideal deal of information regarding elements. It also helps to understand how they relate to one another following easy-to-use references. The table can easily be used to understand the element’s properties even those which have not been discovered. Columns and rows give a hint about the elements which hold similar characteristics. The table introduces excellent information regarding the use of balanced chemical equations. 

  • Benefits Of Periodic Table – 

Have you been wondering about the benefits of Blocks of the Periodic Table? You have landed on the right platform. Here, we are going to mention this in a detailed manner – 

  • It is quite easy to keep in mind the properties of an element if the periodic table’s position is known. 
  • Fortunately, the periodic table has truly come up with the study of chemistry systematically as well as smoothly. It helps to memorize things easily. 
  • It becomes easy to predict the compound formed by an element following its position in the periodic table.

Conclusion – 

We hope that after going through the above-mentioned information, you might not be frustrated about this periodic table. Now, you know the logic of why it has been formed and used. 

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