Sulfur hexafluoride has covalent bonds.
Nitrogen fixing bacteria are important for plants as they can convert Nitrogen from the air into Nitrates in the soil which the plant can then use. Legumes have nodules on their roots to provide a suitable habitat for them.
Yes - there are equal values of nitrogen (4) and hydrogen (12) on both sides of this equation, and all molecular formulas are in empirical form.
The air is about 80% nitrogen- but cannot be used by plants for food. Nitrogen fixing bacteria transform nitrogen in the air to nitrogen in the soil that plants CAN use- resulting in greatly improved plant growth, and more fertile soil.
it is bacteria and lightening or decomposers, not sure. I am doing the same biology homework crap that Ms. elliot signed to all the students over break. i am looking for the same answer i think decomposers is the answer. its the one that makes most sense. :D
NF3 is the correct formula for nitrogen trifluoride.
NF3
To find the mass percent of nitrogen in NF3, you need to calculate the molar mass of NF3 and then determine the mass of nitrogen in one mole of NF3. The molar mass of NF3 is 71.001 g/mol. The molar mass of nitrogen in NF3 is 14.007 g/mol. Therefore, the mass percent of nitrogen in NF3 is (14.007 g/mol / 71.001 g/mol) * 100% ≈ 19.76%.
The chemical formula for nitrogen trifluoride is NF3. It consists of one nitrogen atom bonded to three fluorine atoms.
No, NF3 is not an ionic compound. It is a covalent compound where nitrogen (N) and fluorine (F) atoms share electrons to form bonds. In NF3, there are covalent bonds within the molecule.
NF3.
The chemical formula for nitrogen trifluoride is NF3. It consists of one nitrogen atom bonded to three fluorine atoms.
The correct IUPAC name for the compound NF3 is nitrogen trifluoride.
The formula for nitrogen trifluoride is NF3. It consists of one nitrogen atom bonded to three fluorine atoms.
Nitrogen trifluoride is nitrogen trifluoride (NF3) !
NF3 is a covalent compound. Nitrogen and fluorine are both nonmetals, so they share electrons to form covalent bonds rather than transferring them to form ionic bonds.
Nitrogen trifluoride