The amount of electrons and their position in the atom is the main thing. The atomic number of an element is it's amount of protons. That makes the periods (rows). Groups are put in place using where the electrons are in the atom (how many electrons are in the outer shell of that atom). All elements in a representative element group have the same amount of electron sin the outer shell. (e.g. all elements in Group 1 have 1 electron in the outer shell)
The amount of electrons and their position in the atom is the main thing. The atomic number of an element is it's amount of protons. That makes the periods (rows). Groups are put in place using where the electrons are in the atom (how many electrons are in the outer shell of that atom). All elements in a representative element group have the same amount of electron sin the outer shell. (e.g. all elements in Group 1 have 1 electron in the outer shell)
The amount of electrons and their position in the atom is the main thing. The atomic number of an element is it's amount of electrons. That makes the periods (rows). Groups are put in place using where the electrons are in the atom (how many electrons are in the outer shell of that atom). All elements in a representative element group have the same amount of electron sin the outer shell. (e.g. all elements in Group 1 have 1 electron in the outer shell).
What block it is in.
What are the number of valence electrons (in most elements)
Its atomic number and hence the number of protons, electrons
It mass number and hence the number of neutrons
Its ionisation energy or electronegativity or electron affinity with respect to other elements
It shows you the family of the element, which means you can tell some of its general properties. (i.e. Alkali Metals: Explode in water, Alkaline Earth: reactive and flammable, Transition metals: Metals, generally nonreactive, Carbon family: brittle, sorta metals sorta not; Halogens, reacts with basically anything; Noble Gases: Nonreactive; etc.)
An element's location in the Periodic Table gives an idea about the physical and chemical properties of the element.
which category it is in and how many protons and neutrons and electrons it has
They tell you the mass of the element. It can also tell you if its a metal or nonmetal.
With the help of location of any element , is group and period are determined for which the properties have been generalised. Hence the location helps in knowing the properties of any element
A column of elements in the periodic table is called a group or
Hn is not an element on the periodic table.
Periodic table is an array or elements not compounds. Sucrose is a compound and not an element and hence it is not there or the periodic table.
Periodic table lists the various elements. Argon is an element and hence is present on the periodic table.
H2 is an element as it does not include any other elements from the Periodic Table.
A column of elements in the periodic table is called a group or
periodic table is an arrangement of elements. Thiamin is not an element and hence not on the periodic table.
The Periodic Table states all known Elements, and element's atomic number, and if a element is metalic or non-metalic.
Darmstadtium is the element 110 in the periodic table.
Hn is not an element on the periodic table.
Everything on The Periodic Table is an element, hence the the name PERIODIC TABLE OF ELEMENTS - - - - - Well...the paper the table is printed on and the ink used to print it with are not elements, but everything else is.
Rock is not an element and therefore is not on the periodic table. Only elements are on the periodic table
the elements in the periodic table are arranged according to the increasing atomic number and hence the elements are divided into 18 groups hence it would be easy to identify the elements
Everywhere. The periodic table only has elements
An elements period is its row in the Periodic Table.
An elements period is its row in the Periodic Table.
Silver will not be removed from the periodic table of elements. It is an element, and it belongs there.