I am not an expert on this topic, but silicon I believe has access to some D orbitals. Water can exploit this D orbital and bond to the silicone producing an Si-O-H bond and HCl which fumes. I believe this is thermodynamically favorable (si-O-H). Carbon tetrachloride does not have access to D orbitals and can not form the necessary intermediate to react (kinetically hindered). That's my shot at it.
Chloride of silicon reacts with moisture in the air to form hydrochloric acid and silicic acid, producing steamy fumes. Chloride of carbon, on the other hand, does not readily react with air or moisture to release fumes.
No, silicon is not an allotrope of carbon. Silicon and carbon are two different elements with different properties. Silicon is a metalloid while carbon is a nonmetal.
No, silicon dioxide (SiO2) does not contain carbon. It is a compound made up of silicon and oxygen atoms bonded together in a rigid, crystal lattice structure.
The balanced chemical equation for the reaction between silicon and carbon dioxide to form silicon carbide and silicon dioxide is: 3Si + 3CO2 -> SiC + 2SiO2
catenation is a unique property shown by carbon. for catination to occur, we need certain conditions to be satisfied. a most important factor is the size. carbon satisfies the size requirements which favours strong c-c bonds. but Si-Si bonds are not so strong in our conditions.
carbon, silicon, germanium, tin, and lead.
No, silicon is an element separate to carbon
No, silicon is not an allotrope of carbon. Silicon and carbon are two different elements with different properties. Silicon is a metalloid while carbon is a nonmetal.
The reaction between sodium carbonate and hydrochloric acid produces sodium chloride, water, and carbon dioxide gas.
A substance made from elements other than Carbon? Another way of asking this question might be 'Can you name some compounds that do not include Carbon?' There are many: Sulphur Dioxide, Iron Oxide, Calcium Chloride, Sodium Chloride, Potassium Permanganate, Silicon Dioxide,...
Silicon carbide is composed of silicon and carbon atoms in a 1:1 ratio, forming a crystal structure known as a covalent network. The compound is highly stable and has a high melting point, making it useful in a variety of industrial applications such as abrasives and ceramics.
No, silicon dioxide (SiO2) does not contain carbon. It is a compound made up of silicon and oxygen atoms bonded together in a rigid, crystal lattice structure.
because the fet is made out of carbon metal oxide and the bjt is made out of silicon or germanium
Carbon chloride.
Carbon and silicon have some similarities in their chemical properties as they both belong to the same group on the periodic table. However, there are differences due to silicon being a larger atom with a lower electronegativity and a higher ability to form metallic compounds compared to carbon which has a greater tendency to form organic compounds.
Silicon, which is just below carbon, and Germanium are the two elements that are most like carbon.
Silicon carbide is a synthetic compound made from silicon and carbon, while quartz is a natural mineral made of silicon dioxide. Silicon carbide is harder and more durable than quartz, making it suitable for use in industrial applications like grinding and cutting tools. Quartz is widely used in jewelry and decorative items due to its clarity and appearance.
Silicon has a larger atomic number than carbon. Silicon has an atomic number of 14, while carbon has an atomic number of 6.