No. Nitrogen is triply bonded, and is much more stable at "standard" temperatures than the more electronegative oxygen is.
No, two compounds made of nitrogen and oxygen would not always be identical. Different combinations of nitrogen and oxygen atoms can form different compounds with unique chemical and physical properties.
Nitrogen and oxygen are the two most abundant gases in the air. They are actually elements and not compounds. The two most abundant compounds would be water vapor and carbon dioxide.
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)
The chemical formula "n o2 no2" seems to have a small formatting issue, but it likely refers to nitrogen (N) and oxygen (O) compounds. The products indicated by this formula could include nitrogen dioxide (NO2), which is formed when nitrogen reacts with oxygen. If the context involves a reaction, such as the combustion of nitrogen in oxygen, the primary product would be nitrogen dioxide.
No. Nitrogen dioxide is a compound of nitrogen an oxygen, meaning that the two elements are chemical bonded together to form a different chemical with its own unique set of properties. In a mixture the nitrogen and oxygen would not be bonded to each other and would retain their individual properties.
When nitrogen combines with oxygen, it can form different compounds like nitric oxide (NO) or nitrogen dioxide (NO2). Nitric oxide is a colorless gas that is used in industries and medicine, while nitrogen dioxide is a reddish-brown gas released from vehicles and factories that can contribute to air pollution.
No, nitrogen and oxygen do not usually form an ionic compound with each other. They are more likely to form covalent compounds due to their similar electronegativities, meaning they share electrons rather than transfer them.
without nitrogen our bodys would over oxygenate (get to much oxygen). nitrogen is important for plants, after all they breath in nitrogen and breath out oxygen.
The five most common atoms in organic molecules are carbon, hydrogen, oxygen, nitrogen, and sulfur. Carbon is the backbone of organic molecules, while hydrogen is typically attached to carbon. Oxygen, nitrogen, and sulfur are essential for a variety of functional groups and bonds in organic compounds.
Nitrogen gas itself does not catch fire under normal conditions as it is an inert gas. However, nitrogen can support combustion by providing an oxygen-free environment that prevents the fire from being extinguished.
No, oxygen cannot be liberated from all oxygen-containing compounds. Some compounds contain oxygen in a very stable form, such as in water (H2O), where the oxygen is tightly bound to hydrogen. Releasing oxygen from these compounds would require significant energy input.
umm oxygen. we would die without it