Mendeleeff triad to explain the similarities of elements in the same group in terms of which property
Answers
Answer:
In the mid-1700s, chemists began actively identifying elements, which are substances made up of just one kind of atom. But a century later, they still used a variety of symbols and acronyms to represent the different materials — there just wasn’t a common lexicon. In 1869, the Russian chemist Dmitri Mendeleev came to prominence with his tabular diagram of known elements. This basic ingredient list, of which all matter exists, became known as the periodic table. Here’s what’s especially amazing: Mendeleev’s chart allotted spaces for elements that were yet to be discovered. For some of these missing pieces, he predicted what their atomic masses and other chemical properties would be. When scientists later discovered the elements Mendeleev expected, the world got a glimpse of the brilliance behind the periodic table.
Explanation:
The periodic table did not immediately impact the field of chemistry, though that changed with the discovery of the first missing element, gallium, in 1875. All of its qualities fit those Mendeleev had foreseen for the element he called eka-aluminum.
As invaluable a reference tool as it was, the periodic table left plenty of room for discovery and enhancement. In the 1890s, an entirely new and unexpected group of elements was detected: the noble gases. They were added to the table as a separate column. Helium, the second-most abundant element in the Universe, wasn’t found on Earth until 1895. Another 60 or so elements have since been discovered and others may still be waiting to be found.
Beneath the contiguous periodic table, you can see two rows known as the “lanthanides” (atomic numbers 57–71) and “actinides” (atomic numbers 89–103), named after the first, left-most members of their groups. As scientists found the heavier elements and began to create many more, the newer elements have been separated to keep the table’s cohesive shape.
As of 2012, the periodic table has a total of 118 elements. Some elements have been named after scientists, such as atomic number 99, Einsteinium,for Albert Einstein. Rutherfordium, atomic number 104, is named in honor of physicist Ernest Rutherford, who developed the modern model of the atom. Atomic number 101, Mendelevium, is named after the periodic table’s architect.
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Answer:
That property was atomic mass.
Explanation:
You can find your explanation in the above pic. I hope it will help you.
