Ammonia. The fluorine atoms on the nitrogen of Nitrogen trifluoride withdraw electrons making the Nitrogen lone pair of electrons less available and thus less basic.
The reaction between nitrogen and hydrogen to produce ammonia is a synthesis reaction. The balanced chemical equation is N2 + 3H2 → 2NH3. By using the given amounts of nitrogen and hydrogen, we can calculate that 34g of ammonia should be produced, indicating that the reaction has gone to completion based on the law of conservation of mass.
No, ammonia is not bleach. Ammonia is a compound made up of nitrogen and hydrogen, while bleach typically refers to a group of chemicals called sodium hypochlorite or hydrogen peroxide that are used for cleaning and disinfecting. Mixing bleach with ammonia can produce toxic fumes and should be avoided.
To find moles of nitrogen, we first need to calculate moles of ammonia by using its volume at STP. As 520 mL is equivalent to 0.52 L, we can use the ideal gas law to determine moles of ammonia. Given the balanced chemical equation N2 + 3H2 -> 2NH3, 1 mole of nitrogen reacts with 3 moles of hydrogen to produce 2 moles of ammonia. So the number of moles of nitrogen needed would be half the number of moles of ammonia produced.
When an organism decomposes (because of the bacterial influence), it's amino-acids, and nucleic acids are turned into ammonia, in the process of amonification. That ammonia later reacts with various salt from the ground, and creates nitro-salts (I do not believe that is the correct term in English, but you should get the point). These salt can easily be dissolved in water, so they quickly distribute throughout the ground, and are available to plants and animals. Urea, which can be found in the urine of animals is also converted to ammonia in the process of amonification.
No, you should not drink ammonia. Ammonia is a toxic substance that can cause serious harm if ingested, including damage to the throat, esophagus, and stomach. Ingesting ammonia can be life-threatening and should be avoided at all costs.
The reaction between nitrogen and hydrogen to produce ammonia is a synthesis reaction. The balanced chemical equation is N2 + 3H2 → 2NH3. By using the given amounts of nitrogen and hydrogen, we can calculate that 34g of ammonia should be produced, indicating that the reaction has gone to completion based on the law of conservation of mass.
Yes, ammonia can be beneficial for plant growth and development as it provides a source of nitrogen, an essential nutrient for plants. However, excessive levels of ammonia can be harmful to plants and should be carefully managed.
In an aquarium, fish waste and uneaten food release ammonia. The beneficial bacteria then convert the ammonia into nitrites, which are further converted into nitrates. Plants in the aquarium can utilize these nitrates for growth, completing the nitrogen cycle.
No, ammonia is not bleach. Ammonia is a compound made up of nitrogen and hydrogen, while bleach typically refers to a group of chemicals called sodium hypochlorite or hydrogen peroxide that are used for cleaning and disinfecting. Mixing bleach with ammonia can produce toxic fumes and should be avoided.
YES. Ammonia is the mostdetrimentalwaste that you could find in your tank. It can really harm your fish and species. It is all apart of the nitrogen cycle so the bestrecommendationfor high ammonia is to balance out this cycle by doing a water change or adding plants to the aquarium to produce oxygen to aid in the nitrogen cycle.
Household ammonia can be effective as a fertilizer for plants because it provides nitrogen, which is essential for plant growth. However, it should be used carefully and in moderation, as too much ammonia can harm plants. It is recommended to dilute ammonia before using it as a fertilizer and to follow instructions carefully to avoid damaging the plants.
Wrong N(oh)3Nitrogen hydroxide is NOT an exsisting compound. Only hydroxides of metallic elements are possible. The only N-containing 'hydroxide' I know about, is the often wrongly formulated formula for AMMONIA, NH4OH, but this should be written as NH3. However NH4OH is never called nitrogen hydroxide, but ammonium hydroxide.
Liquid ammonia used for this purpose is household cleaning type of ammonia. This should not harm trees at all as your application will be exterior spraying lightly on the surface of the bark of the trees and not soaking the ground with the ammonia in order to reach the roots. A different form of ammonia called ammonium nitrate is a type of fertilizer that is use to feed all types of plants. This type is a mixture of ammonia and nitrogen and is pelletized most of the time for the purpose of feeding. In the manner you are applying it should not harm the trees at all.
To find moles of nitrogen, we first need to calculate moles of ammonia by using its volume at STP. As 520 mL is equivalent to 0.52 L, we can use the ideal gas law to determine moles of ammonia. Given the balanced chemical equation N2 + 3H2 -> 2NH3, 1 mole of nitrogen reacts with 3 moles of hydrogen to produce 2 moles of ammonia. So the number of moles of nitrogen needed would be half the number of moles of ammonia produced.
When an organism decomposes (because of the bacterial influence), it's amino-acids, and nucleic acids are turned into ammonia, in the process of amonification. That ammonia later reacts with various salt from the ground, and creates nitro-salts (I do not believe that is the correct term in English, but you should get the point). These salt can easily be dissolved in water, so they quickly distribute throughout the ground, and are available to plants and animals. Urea, which can be found in the urine of animals is also converted to ammonia in the process of amonification.
Sweat that smells like urine has ammonia. This means your body is losing nitrogen. Drink more water and the nitrogen will go into your urine rather than your sweat. You should also eat more or drink more carbohydrates.
No, you should not drink ammonia. Ammonia is a toxic substance that can cause serious harm if ingested, including damage to the throat, esophagus, and stomach. Ingesting ammonia can be life-threatening and should be avoided at all costs.