In the

history of the periodic table The periodic table is an arrangement of the chemical elements, structured by their atomic number, electron configuration and recurring chemical properties. In the basic form, elements are presented in order of increasing atomic number, in the ...

, Döbereiner's triads were an early attempt to sort the elements into some logical order and sets based on their physical properties. They are analogous to the groups (columns) on the modern

periodic table The periodic table, also known as the periodic table of the (chemical) elements, is a rows and columns arrangement of the chemical elements. It is widely used in chemistry, physics, and other sciences, and is generally seen as an icon of ch ...

. 53 elements were known at his time. In 1817, a letter by reported

Johann Wolfgang Döbereiner Johann Wolfgang Döbereiner (13 December 1780 – 24 March 1849) was a German chemist who is best known for work that foreshadowed the periodic law for the chemical elements, and for inventing the first lighter, which was known as the Döbere ...

's observations of the alkaline earths; namely, that strontium had properties that were intermediate to those of calcium and barium. From pp. 332–333: ''"In der Gegend von Jena (bei Dornburg) … Schwerspaths seyn möchte."'' (In the area of Jena (near Dornburg) it is known that celestine has been discovered in large quantities. This gave Mr. Döbereiner cause to inquire rigorously into the stoichiometric value of strontium oxide by a great series of experiments. It turned out that it .e., the molar weight of strontium oxide– if that of hydrogen is expressed by 1 or that of oxygen is expressed by the number 7.5 – is equal to 50. This number is, however, precisely the arithmetic mean of that which denotes the stoichiometric value of calcium oxide (= 27.55) and of that which denotes the stoichiometric value of barium oxide (= 72.5) ; namely (27.5 + 72.5) / 2 = 50. For a moment, Mr. Döbereiner found himself thereby caused to doubt the independent existence of strontium; however, this withstood both his analytical and synthetic experiments. Even more noteworthy is the circumstance that the specific weight of strontium sulfide is likewise the arithmetic mean of that of pure (water-free) calcium sulfide and that .e., the sulfideof barium, namely (2.9 + 4.40) / 2 = 3.65 ; which must cause neto believe even more that celestine might be a mixture of equal stoichiometric amounts of anhydrite .e., anhydrous calcium sulfateand barite.) By 1829, Döbereiner had found other groups of three elements (hence "triads") whose physical properties were similarly related. For an English translation of this article, see:
Johann Wolfgang Döbereiner: "An Attempt to Group Elementary Substances according to Their Analogies" (Lemoyne College (Syracuse, New York, USA))
/ref> He also noted that some quantifiable properties of elements (e.g. atomic weight and density) in a triad followed a trend whereby the value of the middle element in the triad would be exactly or nearly predicted by taking the arithmetic mean of values for that property of the other two elements. These are as follows: Limitations: All the known elements could not be arranged in the form of triads. For very low-mass or very high mass elements, the Döbereiner’s triads are not applicable. Take the example of F (Fluorine), Cl (Chlorine), and Br (Bromine). The atomic mass of Cl is not an arithmetic mean of the atomic masses of F and Br. As the techniques for accurately measuring atomic masses improved, the Döbereiner’s triad was found to fail to remain strictly valid.

References

* {{DEFAULTSORT:Dobereiner's Triads History of chemistry Chemical classification