History of the Periodic Table (AQA GCSE Chemistry)
Revision Note
How was the early Periodic Table arranged?
Before the discovery of the subatomic particles, scientists arranged the elements in order of their atomic weight and not their atomic number
When the elements that were known at that time were sorted by mass into a table, patterns emerged at regular periods along the table, giving rise to the term periodic
The earlier tables were incomplete as some elements were forced into a position to fill gaps which appeared during the sorting process
Other elements were placed in the wrong group as they were sorted strictly on their atomic weight and had their chemical properties ignored
There were many early versions of the tables as scientists in different countries grappled with the ordering of the elements
How did Mendeleev arrange the Periodic Table?
In 1869, the Russian chemist Dmitri Mendeleev created his first draft of the periodic table
He organised the elements into vertical columns based on their properties and the properties of their compounds
He then started to arrange them horizontally in order of increasing atomic weight and as he worked, he found that a pattern began to appear in which chemically similar elements fell naturally into the same columns
Mendeleev's Periodic Table
Mendeleev's Periodic Table showed gaps to allow for undiscovered elements
Why are there gaps in Mendeleev's Periodic Table?
There were exceptions though as some elements didn't fit the pattern when arranged by atomic weight
Mendeleev worked to include all the elements, but he didn't force an element to fit the pattern, rather he left gaps in the table that he thought would best be filled by elements that had not yet been discovered
He also switched the order of the elements to maintain consistency down the columns
He quickly realised that elements with the same properties should be placed in the same column
He realised that gaps in the table must correspond to elements that had not yet been discovered or isolated
He used the properties and trends of other elements in the group with the gap to predict the properties of these undiscovered elements
When these elements were later discovered and found to fit the pattern developed by Mendeleev, it served to confirm his theories
The existence and properties of “eka-silicon” for example, which we now know as germanium, was predicted by Mendeleev
Examiner Tips and Tricks
Mendeleev’s table had gaps into which he didn’t force an element, rather he left them empty to be filled at a later date when the correct element was isolated. In this way, his version of the table allowed him to predict the existence and properties of then-unknown elements.
Isotopes & the Periodic Table
Once he was finished, Mendeleev thought he had organised the elements systematically but there were still some elements which didn't quite fit in as neatly as he wanted
This is because isotopes were not known in Mendeleev's time, and he made no provisions for them in his table
This meant that there was always going to be some level of inaccuracy in Mendeleev's work even though he did also consider the element's chemical properties as well as their atomic mass when sorting them
As soon as the subatomic particles were discovered, the atomic number was calculated for each element
This number is used to arrange the elements in the modern-day Periodic Table which fits with Mendeleev's patterns
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