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Nitrates
No, carbon dioxide is not a source of nitrogen or any nitrogen related compounds, because it consists of only (2 atoms of) Oxygen and (1 atom of) Carbon.
There are two elements, nitrogen and oxygen. There are seven total atoms, two nitrogen atoms and five oxygen atoms.
There are two nitrogen atoms and one oxygen atom.
No: The formula NO shows equal numbers of nitrogen and oxygen atoms in the compound, but the formula NO2 shows twice as many oxygen atoms as nitrogen atoms.
Dalton pictured compounds as collections of atoms. For example, nitrogen and oxygen might form a compound containing one atom of nitrogen and one atom of oxygen (written NO), a compound containing two atoms of nitrogen and one atom of oxygen (written N2O), or a compound containing one atom of nitrogen and two atoms of oxygen (written NO2)
Nitrates
No, carbon dioxide is not a source of nitrogen or any nitrogen related compounds, because it consists of only (2 atoms of) Oxygen and (1 atom of) Carbon.
There are certainly oxygen and nitrogen atoms on Saturn, but most of them are in compounds with other elements (particularly hydrogen, forming water and ammonia respectively).
nitrogen, carbon, oxygen are what make up nitrogen dioxide.
Varies from plant to plant depending on what compounds are in their leaves. Most likely Oxygen, Carbon, Nitrogen, and Hydrogen.
The bond between nitrogen atoms in an N2 molecule is stronger than the bond between oxygen atoms in an O2 molecule. However, bond energies for the same atom vary with formulas of compounds, so that there is no answer to this question that is correct for every compound of these two elements.
Some or all of the oxygen atoms in crown ethers can be replaced by nitrogen atoms to form aza crown ethers. In cryptands Some of the oxygen atoms replaced by nitrogen atoms, and in cyclen all oxygen atoms replaced by nitrogen atoms .
2 nitrogen and 4 oxygen ,,,,,,NO Problem
There are only nitrogen, oxygen atoms and no carbon atoms at all.
1to 3
Excess energy (energetic light or energetic electrons) will break apart an oxygen molecule, forming two oxygen atoms. Likewise, nitrogen molecules are also broken apart into nitrogen atoms. Those oxygen and nitrogen atoms will recombine in most cases, making hot oxygen and nitrogen. But in non-zero percentages, ozone, nitrous oxide, nitrogen oxide, and even more complex assemblies are the result. Not all reactions return to their lowest level in the first step. Sometimes "free radicals" are the result.