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Mendeleev's Periodic Table

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Set of Shapes Flashcards

When you study for a test, how do you approach the task?

One useful way is to use flash cards.  You write down the vocabulary words, the foreign language terms, the math formulas, the chemistry reactions – anything you want to learn.  Then you sort these cards into categories, topics that go together.  This organization of information helps you see patterns in the material so you can tie different ideas together and make better sense of them.

The periodic table was first built using a set of cards.  With this strategy, Mendeleev could organize and rearrange material until patterns emerged.

Mendeleev’s Periodic Table  

In 1869, Russian chemist and teacher Dmitri Mendeleev (1836-1907) published a periodic table of the elements. The following year, German chemist Lothar Meyer independently published a very similar table. Mendeleev is generally given more credit than Meyer because his table was published first and because of several key insights that he made regarding the table.


Mendeleev was writing a chemistry textbook for his students and wanted to organize all of the known elements at that time according to their chemical properties. He famously organized the information for each element on to separate note cards that were then easy to rearrange as needed. He discovered that when he placed them in order of increasing atomic mass, certain similarities in chemical behavior repeated at regular intervals. This type of a repeating pattern is called “periodic.” A pendulum that swings back and forth in a given time interval is periodic, as is the movement of the moon around the Earth.

In this table, atomic mass increases from top to bottom of vertical columns, with successive columns going left to right. As a result, elements that are in the same horizontal row are groups of elements that were known to exhibit similar chemical properties. One of Mendeleev’s insights is illustrated by the elements tellurium (Te) and iodine (I). Notice that tellurium is listed before iodine even though its atomic mass is higher. Mendeleev reversed the order because he knew that the properties of iodine were much more similar to those of fluorine (F), chlorine (Cl), and bromine (Br) than they were to oxygen (O), sulfur (S), and selenium (Se). He simply assumed that there was an error in the determination of one or both of the atomic masses. As we will see shortly, this turned out not to be the case, but Mendeleev was indeed correct to group these two elements as he did.

Notice that there are several places in the table that have no chemical symbol, but are instead labeled with a question mark. Between zinc (Zn) and arsenic (As) are two such missing elements. Mendeleev believed that elements with atomic masses of 68 and 70 would eventually be discovered and that they would fit chemically into each of those spaces. Listed below are other properties that Mendeleev predicted for the first of these two missing elements, which he called “eka-aluminum,” compared with the element gallium.


Eka-Aluminum (Ea)

Gallium (Ga)

Atomic mass

68 amu

69.9 amu

Melting point




5.9 g/cm 3

5.94 g/cm 3

Formula of oxide

Ea 2 O 3

Ga 2 O 3

The element gallium was discovered four years after the publication of Mendeleev’s table, and its properties matched up remarkably well with eka-aluminum, fitting into the table exactly where he had predicted. This was also the case with the element that followed gallium, which was named eventually named germanium.

Mendeleev’s periodic table gained wide acceptance with the scientific community and earned him credit as the discoverer of the periodic law. Element number 101, synthesized in 1955, is named mendelevium after the founder of the periodic table. It would, however, be several years after Mendeleev died before the several discrepancies with the atomic masses could be explained and before the reasons behind the repetition of chemical properties could be fully explained.

Some historic periodic tables:


Discovery dates of the elements:



  • Mendeleev published his periodic table in 1869.
  • His organization of elements was based on atomic mass.
  • Mendeleev’s periodic table made it possible to predict properties of elements that had not yet been discovered.


  1. Where was Mendeleev born?
  2. Where did he teach?
  3. What is one important thing about Mendeleev’s table?
  4. What other contributions to chemistry did Mendeleev make?


  1. When did Mendeleev publish his periodic table?
  2. Who else came out with a periodic table at about the same time?
  3. Why was Mendeleev’s table considered to be superior?
  4. What element did Mendeleev predict to exist?
  5. What element was named after Mendeleev?

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