1. Alkali metals
2. Alkaline earth metals
3. Scandium family
4. Titanium family
5. Vanadium family
6. Chromium family
7. Iron family
8. Manganese family
9. Cobalt family
10. Nickel family
11. Zinc family
12. Copper family
13. Boron family
14. Carbon family
15. Pnicnides
16. Chalcogenides
17. Halogens
18. Noble gases
The ten periodic families are Alki Metals, Alkaline Earth metals, Transition Metals, Boron Metals Carbon Family, Nitrogen Family, Oxygen family, Halogen family, Noble gases or Inert gases, and Rare Earth metals.
Alkali Metals, Alkaline Earth Metals, Transition Metals, Halogens, Nobel Gases, Boron Family, Rare Earth, Carbon Family, Nitrogen Family, and Oxygen Family
Group family 10 on the Periodic Table is of metalloids.It has four elements.Elements are Nickel,Palladium,Platinum and Darmstadtium.
They are:
Alkali metals
Alkaline metals
Boron
Carbon
Pnictogens
Chalcogens
Halogens
Noble gases.
Out of the first 18 elements on the periodic table, 10 are solid
Hydrogen
period 3 elements in the periodic table have 3 electrons in there outher shell hence the name.
Please follow the links for some of the elements in the periodic table (link attached) and read the articles.
The two main arrangements of the periodic table are the groups, which form the columns of the table, and the periods, which form the rows. There are some similarities between elements in the same period, but most similarities are shared within the groups of elements.
Here are the first 10 elements on the Periodic Table from 1 to 10.HydrogenHeliumLithiumBerylliumBoronCarbonNitrogenOxygenFluorineNeon
Out of the first 18 elements on the periodic table, 10 are solid
because thats how the periodic table is
10
Hydrogen
group 10, period 6
10
period 3 elements in the periodic table have 3 electrons in there outher shell hence the name.
Please follow the links for some of the elements in the periodic table (link attached) and read the articles.
transition elements
The two main arrangements of the periodic table are the groups, which form the columns of the table, and the periods, which form the rows. There are some similarities between elements in the same period, but most similarities are shared within the groups of elements.
I am sorry, I do not know what you mean by this question. No element on the periodic table is the same. Here are some facts, however.The Periodic Table is a chart which arranges the chemical elements in a useful, logical manner. Elements are listed in order of increasing atomic number, lined up so that elements which exhibit similar properties are arranged in the same row or column as each other. The Periodic Table is one of the most useful tools of chemistry and the other sciences. Here are 10 fun and interesting Periodic Table facts:While Dmitri Mendeleev is most often cited as the inventor of the modern periodic table, his table was just the first to gain scientific credibility, and not the first table that organized the elements according to periodic properties.There are 90 elements on the periodic table that occur in nature. All of the other elements are strictly man-made.Technetium was the first element to be made artificially.The International Union of Pure Applied Chemistry, IUPAC, revises the periodic table as new data becomes available. At the time of this writing, the most recent version of the periodic table was approved 19 February 2010.The rows of the periodic table are called periods. An element's period number is the highest unexcited energy level for an electron of that element.Columns of elements help to distinguish groups in the periodic table. Elements within a group share several common properties and often have the same outer electron arrangement.Most of the elements on the periodic table are metals. The alkali metals, alkaline earths, basic metals, transition metals, lanthanides and actinides all are groups of metals.The present periodic table has room for 118 elements. Elements aren't discovered or created in order of atomic number. Scientists are working on creating and verifying element 120, which will change the appearance of the table.Although you might expect atoms of an element to get larger as their atomic number increases, this does not always occur because the size of an atom is determined by the diameter of its electron shell. In fact, element atoms usually decrease in size as you move from left to right across a row or period.The main difference between the modern periodic table and Mendeleev's periodic table is that Mendeleev's table arranged the elements in order of increasing atomic weight while the modern table orders the elements by increasing atomic number.