Yes - carbon dioxide is 3 atoms and is O=C=O.
3 oxygen atoms, so one and a half oxygen molecules. 3 Oxygen atoms joined by a single and a double bond in a bent shape, it is one molecule. A normal molecule of Oxygen has two atoms joined by a double bond.
Glycerol is a subunit of triglycerides. In a triglyceride, three fatty acids bond to the three carbon atoms of the glycerol molecule.
Two bonds between the two oxygen atoms in O2. Three bonds between the two nitrogen atoms in N2
shrink
It could be what ever you want it to be.
The longest bond of those three is a single bond.
It's not resonant, because there are no resonant bonds. There are 24 electrons total, and 10 of them are used to connect all of the atoms. There is a double bond between the two carbons, and each of the Flourines have 6 electrons. :)
The difference between a saturated and unsaturated fatty acid are the number of hydrogen atoms and double carbon bonds in the fatty acid chain. A saturated fatty acid has no carbon double bonds, two hydrogen atoms for each carbon atom along the chain and three for the carbon atom at each end. In an unsaturated fatty acid chain some of the hydrogen atoms are replaced by a double bond between neighboring carbon atoms. Mon-unsaturated and poly-unsaturated fatty acids differ in the number of double carbon bonds in the chain, and thus the total number of hydrogen atoms.
Hydrogen can't exist as a three-atom single-element molecule no matter what you do to it - it has only one bonding site. If you stick an atom with two bonding sites between the hydrogen atoms you can pull it off, but this isn't a question about water. Oxygen can naturally exist as a three-atom molecule - it's ozone.
The covalent bond. One line is a single bond, two lines between atoms is a double bond and three lines is triple bond
If you have a double bond between two C-Atoms and try to add a halogen-molecule (Br2,Cl2) the first halogen-atom will open the double bond and bind to both C-Atoms. So you get a "ring" of three compartments like in an epoxide (C-O-C).
Bond Angle
An intramolecular force is any force that holds together the atoms making up a molecule or compound. There are three main types of intramolecular forces: - Ionic -Covalent - Metallic Ionic Intramolecular forces These forces exist between atoms of ionic compounds (molecules formed by transfer of electrons). It is the force of attraction between the cation (positively charged atom) and anion (negatively charged atom) in a molecule. Covalent intramolecular forces These forces exist between covalent compounds (molecules formed by sharing of electrons). It is the force of attraction between the bonded pair od electrons with the nucleii of the the two atoms
Sodium carbonate does not exist as separate molecules as it forms an ionic lattice.
There are three.
Two oxygen atoms form a double covalent bond 'O=O' (symbolically as O2). However, osygen has an alloptrope This is were three(3) oxygen atoms combine in a triangular manner. This is called 'ozone'. (symbolically O3).
3 oxygen atoms, so one and a half oxygen molecules. 3 Oxygen atoms joined by a single and a double bond in a bent shape, it is one molecule. A normal molecule of Oxygen has two atoms joined by a double bond.