CHAPTER 5:THE PERIODIC TABLEPhysical Science

Coach Kelsoe

Pages 124–152

SECTION 5–1:ORGANIZING THE ELEMENTSPhysical Science

Coach Kelsoe

Pages 126–129

OBJECTIVES

Describe how Mendeleev arranged the elements in his table.

Explain how the predictions Mendeleev made and the discovery of new elements demonstrated the usefulness of his periodic table.

THE SEARCH FOR ORDER

Until 1750, scientists had identified only 17 elements, most of which were metals like copper and iron. Many more discoveries were made shortly after this time.

In 1789, French chemist Antoine Lavoisier grouped the known elements into categories he called metals, nonmetals, gases, and earths.

THE SEARCH FOR ORDER

For the next 80 years, scientists looked for different ways to classify the elements, but none of their systems provided an organizing principle that worked for all the known elements.

In the 1860s, a Russian chemist and teacher named Dmitri Mendeleev was trying to organize the elements for a chemistry textbook for his students.

MENDELEEV’S PERIODIC TABLE

Mendeleev found a way to organize the known elements while playing a card game very similar to solitaire.

He made a “deck of cards” of each element, and each card contained the element’s name, mass, and properties.

He paid close attention to how each element behaved in reactions with oxygen and hydrogen.

MENDELEEV’S PERIODIC TABLE

Mendeleev arranged the elements into rows in order of increasing mass so that elements with similar properties were in the same column.

Within a column, the masses increased from top to bottom. This chart was a periodic table.

A periodic table is an arrangement of elements in columns, based on a set of properties that repeat from row to row.

MENDELEEV’S PREDICTION

Mendeleev could not make a complete table of the elements because many elements had not yet been discovered.

He had to leave spaces in his table for those elements for that reason.

For example, he placed bromine in Group VII because bromine and chlorine have similar properties. This left four spaces in row 4 between zinc and bromine. He placed arsenic and selenium in two of the spots, and left gaps in the other two where he predicted the existence of new elements.

EVIDENCE SUPPORTING MENDELEEV’S TABLE

Mendeleev named missing elements after elements in the same group. He gave the name eka-aluminum to the element that belonged one space below aluminum in the table. He predicted that it would be a soft metal with a low melting point and a density of 5.9 g/cm3.

In 1875, a French chemist discovered eka-aluminum and renamed it Gallium (Gallia is Latin for “France”)

EVIDENCE SUPPORTING MENDELEEV’S TABLE

The properties of gallium are very similar to what Mendeleev had predicted years before it was discovered.

The close match between Mendeleev’s predictions and the actual properties of new elements showed how useful his periodic table could be.

The discovery of scandium in 1879 and germanium in 1886 provided additional evidence.

VOCABULARY

Periodic table