Both are non-metals, so it will be covalent.
Silicon and sulfur would form covalent bonds.
covalent
Covalent
Convalent bond
The SiSi bond in Cl3SiSiCl3 is covalent. Covalent bonds involve the sharing of electrons between atoms, which is the case in this molecule. The electronegativities of silicon and chlorine are not significantly different to form an ionic bond.
The bond is polar covalent- the diffference in electronegativities is 0.65.
The bond in Si normally described as covalent. Its structure is similar to that of diamond.
Covalent with possibly some metallic character.
Silicon does not form an analog of graphite like carbon because of its larger atomic size compared to carbon. Silicon-silicon bonds are weaker than carbon-carbon bonds, so silicon does not readily form stable layered structures like graphite. Additionally, the different bonding characteristics of silicon result in different properties compared to carbon.
Covalent bond between Si and S.
Polar covalent. Si 1.90, S 2.58. SiS2 is polymeric - long chains with tetrahedral Si atoms andbridging S atoms.
You write directly on the form your type of business. The Form SI-200C is for domestic stock and agricultural cooperative corporations.
If you're looking for the type of bond, you need to find the difference in electronegativity. The electronegativity of Br is 2.96 and Si is 1.9. Subtracting the two will give you the difference of the previously mentioned (1.06). For the bond to be POLAR the difference should fall between 0.5 and 1.6 For the bond to be NON-POLAR the difference should be 1.6
In valence bond theory this is how bonds are assumed to form. In MO theory thsi si not the case!.
The bond is polar covalent- the diffference in electronegativities is 0.65.
The bond in Si normally described as covalent. Its structure is similar to that of diamond.
The bond is covalent.
The bond is covalent.
ionic bond
The SiSi bond in Cl3SiSiCl3 is covalent. Covalent bonds involve the sharing of electrons between atoms, which is the case in this molecule. The electronegativities of silicon and chlorine are not significantly different to form an ionic bond.
Covalent with possibly some metallic character.