all nonmetals
carbon, hydrogen, oxygen, nitrogen, phosphorus, and sulfur = "CHONPS"
Most common gas pollutants: Carbon dioxide Carbon monoxide Nitrogen dioxide Nitrogen monoxide Dinitrogen monoxide Sulfur dioxide Sulfur trioxide ChloroFluoroCarbons Methane Ammonia
Thiourea contains approximately 37.5% sulfur and 11.1% nitrogen by weight.
Just remember NCHOPS.Which stands for; Nitrogen, Carbon, Hydrogen, Oxygen, Phosphorus, and Sulfur, All organic compounds usually have C,H, and O. Most also have nitrogen, phosphorus, and sulfur.
No, Sulfur is an element (a substance comprised of only one type of atom) in itself, as is Nitrogen.
Nitrogen and sulfur are good oxidizers probably because of their valence electron numbers.
The ion with sulfur or nitrogen in oxyanions is called a sulfite or nitrate ion.
When sulfur, nitrogen, and carbon are burned together, they can form a variety of compounds depending on the specific conditions. One common compound that can form is sulfur dioxide (SO2), which is produced when sulfur-containing compounds combust in the presence of oxygen. Other possibilities include nitrogen oxides (such as NO and NO2) and carbon dioxide (CO2).
When sulfur is combined with nitrogen, it can form compounds like sulfur nitride (S4N4) or sulfur nitrogen oxides such as nitrogen dioxide (NO2) or nitrous oxide (N2O). These compounds can exhibit a range of properties depending on the specific elements and bonding arrangements involved.
Oxygen Hydrogen Nitrogen Carbon Sulfur and something else.
Yes, both nitrogen and sulfur are nonmetals. Nonmetals are elements that lack metallic properties such as conducting electricity, luster, and malleability. Nitrogen and sulfur are both found on the right side of the periodic table, which is where nonmetals are located.
Nitrogen and sulfur typically form covalent compounds, such as nitrogen sulfide (N2S) or sulfur nitride (SN). Ionic compounds are usually formed between a metal and a nonmetal due to the large difference in electronegativity, whereas nitrogen and sulfur have more similar electronegativities, favoring covalent bonding.