They both start with a capital letter 'S'.
They are both in the Carbon Group(Vertical column) of the Periodic Table.
However, all three , C , Si, & Sn, are in different periods(Horizontal lines).
They both have a valency of '4'.
However, except for carbon, they can both exhibit a valency of '2'.
'Si' is Silicon.
'Sn' is Tin. 'Sn' is the initials of the Latin word for 'Tin', which is 'Stanum'.
The chemical symbol of tin is Sn
The atom of Tin (Sn) is larger than Silicon (Si) because Tin is located below Silicon in the same group of the periodic table. As you move down a group, the atomic size tends to increase due to the addition of electron shells.
+1 for H -2 for each O +5 for Sn
The oxidation number for Sn (tin) can vary depending on the compound it is in. In the most common compounds, like SnCl2, Sn is typically in the +2 oxidation state. In other compounds, such as SnCl4, Sn can have an oxidation state of +4.
Going down the Carbon Group(family) ;- Carbon (C), Silicon(Si), Germanium(Ge), Tin(Sn) & Lead(Pb) NB In chemistry elements in a column are a GROUP, not family. Elements in a line are a PERIOD.
Sn, because it is metal
The chemical symbol of tin is Sn
The atom of Tin (Sn) is larger than Silicon (Si) because Tin is located below Silicon in the same group of the periodic table. As you move down a group, the atomic size tends to increase due to the addition of electron shells.
Sn-120 is the most common (33%).
yes silicon belongs to the carbon family (IVA GROUP-C,Si,Ge,Sn,Pb)
ionisation energy order for gr 14 is c>si>ge>sn<pb
+1 for H -2 for each O +5 for Sn
Fe, Si, Au, Cr, Al, Ni, S, Sn, N, C
Group 14 of the periodic table of Mendeleev contain: C, Si, Ge, Sn, Pb, Fl.
Richard Ehrlich has written: 'Precise Muonic K [alpha] isotope shifts for nuclides from Si to Sn'
That would be carbon (C), silicon (Si), germanium (Ge), Tin (Sn), etc.
The oxidation number for Sn (tin) can vary depending on the compound it is in. In the most common compounds, like SnCl2, Sn is typically in the +2 oxidation state. In other compounds, such as SnCl4, Sn can have an oxidation state of +4.