Because the gases together under high temperature and pressure, and are subject to sparks.
Nitrogen oxides are typically formed when nitrogen and oxygen react together at high temperatures in combustion processes, such as in vehicle engines or industrial machinery. Nitrogen and oxygen are the main gases involved in the formation of nitrogen oxides.
Nitrogen oxides (NOx) are produced in a petrol engine when the high temperatures and pressures cause nitrogen and oxygen in the air to react. The combustion process in the engine leads to the formation of nitrogen monoxide (NO), which can further react with oxygen to form nitrogen dioxide (NO2). These compounds are collectively referred to as NOx emissions.
Oxygen and nitrogen are both stable, non-reactive gases and do not readily react with each other under normal conditions. However, at very high temperatures and pressures, they can react to form nitrogen oxides.
Nitrogen is relatively inert because it is held together by a strong triple bond, making it difficult for other elements to break this bond and react with nitrogen. Oxygen, on the other hand, tends to react more readily with elements that are more reactive or have a lower ionization energy than itself. This makes nitrogen and oxygen unlikely to react with each other under normal conditions.
Nitrogen and oxygen can combine inside a car engine due to the high temperatures reached during combustion. This leads to the formation of nitrogen oxides (NOx) as a byproduct. Nitrogen and oxygen in the air react with each other under these conditions to produce NOx emissions.
Nitrogen oxides are typically formed when nitrogen and oxygen react together at high temperatures in combustion processes, such as in vehicle engines or industrial machinery. Nitrogen and oxygen are the main gases involved in the formation of nitrogen oxides.
When iridium, oxygen, and nitrogen are mixed together, they do not react to form a specific compound. Iridium is a noble metal and does not readily react with oxygen or nitrogen under normal conditions.
Nitrogen and oxygen can react to form oxides of nitrogen. The reaction can occur whenever a combustion reaction takes place in the presence of nitrogen. It could take place in a car engine because it is where fuel combusts and the temperature within engines can be high. The products formed are NO (nitric oxide) and NO2 (nitrogen dioxide) which are of harm to the environment.
Nitrogen oxides (NOx) are produced in a petrol engine when the high temperatures and pressures cause nitrogen and oxygen in the air to react. The combustion process in the engine leads to the formation of nitrogen monoxide (NO), which can further react with oxygen to form nitrogen dioxide (NO2). These compounds are collectively referred to as NOx emissions.
because the molecules of oxygen only react at high temperatures
No, nitrogen does not burn in oxygen. Nitrogen is inert and does not react with oxygen under normal conditions.
If you just let it in, It would be 99% of ordinary air. If you send a spark through it, it would be nitrogen dioxide (it is toxic).
Oxygen and nitrogen are both stable, non-reactive gases and do not readily react with each other under normal conditions. However, at very high temperatures and pressures, they can react to form nitrogen oxides.
Nitrogen is relatively inert because it is held together by a strong triple bond, making it difficult for other elements to break this bond and react with nitrogen. Oxygen, on the other hand, tends to react more readily with elements that are more reactive or have a lower ionization energy than itself. This makes nitrogen and oxygen unlikely to react with each other under normal conditions.
Nitrogen and oxygen can combine inside a car engine due to the high temperatures reached during combustion. This leads to the formation of nitrogen oxides (NOx) as a byproduct. Nitrogen and oxygen in the air react with each other under these conditions to produce NOx emissions.
Nitrogen and oxygen can react to form various nitrogen oxides, such as nitrogen monoxide (NO) and nitrogen dioxide (NO2), especially at high temperatures like during combustion or in the presence of lightning. These nitrogen oxides can contribute to air pollution and the formation of acid rain.
In a combustion engine, high temperatures facilitate the reaction between nitrogen and oxygen, leading to the formation of nitrogen oxides (NOx), which are harmful pollutants. The extreme heat generated during combustion provides the energy needed to break the strong bonds in nitrogen molecules, allowing them to react with oxygen. This reaction typically occurs at temperatures above 1,200°C (2,192°F), which are common in engine operations. The resulting NOx contributes to air pollution and can lead to smog and respiratory issues.