Changium is a flower not a chemical element.
There is no element called changium or any word resembling it. The only element whose name ends in -gium is seaborgium, and changium is nothing like it.
flourine
no
The atomic properties depends on the electrons of the outer shell. THe elements in differnent periods have the same arrangments of electrons in the outer shell. Thus, atomic prperties vary in a similar way in diffrent periods
periodic table
Almost all the chemical properties of an atom are determined by the valence shell electrons or in general, by the no of electrons present in the atom. Since in an isotope and a general atom, no. of electrons is same, therefore they have similar chemical properties. Isotopes differ in atomic mass only and that is due to extra neutrons.
Both have two valence electrons had hence similar properties.
flourine
no
The atomic properties depends on the electrons of the outer shell. THe elements in differnent periods have the same arrangments of electrons in the outer shell. Thus, atomic prperties vary in a similar way in diffrent periods
The atomic properties depends on the electrons of the outer shell. THe elements in differnent periods have the same arrangments of electrons in the outer shell. Thus, atomic prperties vary in a similar way in diffrent periods
periodic table
You think at fluorine (F).
The modern table is ordered by atomic mass and arranged to put elements with similar chemical properties together.
Bart would likely have properties more similar to Twee, as both are metals with similar atomic structures and properties. Grom, on the other hand, is a non-metal that would have different properties compared to Twee.
periodic table
The elements in the Periodic Table are arranged in order of increasing atomic number because it represents the number of protons in the atomic nucleus. It is the number of these protons, and their corresponding number of electrons, that determines the chemical properties of each element. It was found that when the elements lined up, the groups vertically had similar properties. They also increased by atomic mass. The table displays the patterns created by elements of similar properties.
The elements in the Periodic Table are arranged in order of increasing atomic number because it represents the number of protons in the atomic nucleus. It is the number of these protons, and their corresponding number of electrons, that determines the chemical properties of each element. It was found that when the elements lined up, the groups vertically had similar properties. They also increased by atomic mass. The table displays the patterns created by elements of similar properties.