yes
Carbon has the property of catenation and because of that it can bind to other carbon atoms forming linear chains, rings and branched chains
They can bond together in all three .
no, carbon atoms cannot link in rings
Yes
yes
yes. it is
Carbon. Your welcome :)
Yes. Carbon atoms form to create certain types of chains. Straight Carbon Chains, Branched Carbon Chains, and Carbon Rings. Carbon can form single, double or triple bonds. You're welcome
Carbon
Sugar's carbons are arranged in a ring. These rings of carbon are sometimes arranged straight chains (cellulose) or branched (glycogen or amylopectin).
yes
chains
Carbon. Your welcome :)
Yes. Carbon atoms form to create certain types of chains. Straight Carbon Chains, Branched Carbon Chains, and Carbon Rings. Carbon can form single, double or triple bonds. You're welcome
Carbon atoms can form straight chains, branched chains, and rings. They do NOT form geodesic domes.
Carbon
Sugar's carbons are arranged in a ring. These rings of carbon are sometimes arranged straight chains (cellulose) or branched (glycogen or amylopectin).
yes
well, branched chains r branched off and staright chains r straight with no bendings hope this helps
A straight chain hydrocarbon has two carbons that are bonded to only one other carbon (the terminal carbons). A branched chain hydrocarbon has more than two carbons that are bonded to only one other carbon (the terminal carbons at the ends of each branch). A cycloalkane (cyclic hydrocarbon) has no carbons that are bonded to only one carbon - the chain is hooked back to itself.
Aliphatic compounds are typically comprised of carbon and hydrogen atoms joined together straight chains, branched chains, or non-aromatic rings. They can also contain other elements such as oxygen, sulfur, chlorine, or nitrogen and are often flammable. Methane is the simplest aliphatic compound.
They are either straight, ring-shaped, or branched. I was stuck on that, until i found the answers. (: Hope this helps bunches!~heretohelp
Carbon can form single, double or triple bonds with other C atoms to create straight, branched, or closed ring chains.