what happens when ammonia gas mixed with HCl
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we will get effected and we may die
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NH3 and HCl react together to create ammonium chloride, or NH4Cl (because the H in HCl is essentially like saying, 'H1,' you add H3 + H1 to make H4, thus NH4Cl.) Combining two chemicals directly, without the loss of any atoms in the reaction, is like simple algebra: (2a+b) + (a+b) = 3a+2b. But, with chemicals, instead of dividing the individual atoms, or groups of like atoms, with plus signs, and putting the numbers before the atomic symbols, you see it more like "A3B2." NH4C is also an ionic solid, which means that it's a solid formed by ionic bonds. When combining the two, it appears to make a gas, when in fact the two compounds are combining into small crystals in mid air from their individual gaseous phases. Upon settling, or - even quicker - boiling, and being trapped so that they don't float away while still forming, the ammonium chloride condenses into quite visible, milky crystals. Both ammonia and hydrochloric acid are actually gases, but being water soluble, they are often dissolved into water, making the aqueous solutions (the liquids) that you more typically see. Even as an aqueous solution, ammonia and hydrochloric acid release fumes of their respective gaseous forms, and simply having the two aqueous solutions near one another can cause the forming of ammonium chloride crystals in a smoke as the two clear gases combine in the air (as demonstrated very well in the video in my sources.)
Just as smoke from a fire has solid particles, as well as liquids and gases, the smoke formed from the combination of NH3 (aq) and HCl (aq) - (aq) being the attachment for indicating an 'aqueous' solution - has solid particles of NH4Cl, as well as possibly trace amounts of water from the solution, and the gases in the air. The smoke is actually heavier than air, weighed down by the solid crystals. Again, as is well demonstrated in the video in my sources (the second source), the gas can almost be 'poured out' of a beaker, as if a very thin and light liquid, and has a similar appearance to the smoke from putting dry ice in water. When the smoke settles, you can get a collection of NH4Cl crystals on whatever surface the smoke settles on. The reaction creates heat, and the heat can be considerable the larger and faster the reaction is.
NH3 and HCl react together to create ammonium chloride, or NH4Cl (because the H in HCl is essentially like saying, 'H1,' you add H3 + H1 to make H4, thus NH4Cl.) Combining two chemicals directly, without the loss of any atoms in the reaction, is like simple algebra: (2a+b) + (a+b) = 3a+2b. But, with chemicals, instead of dividing the individual atoms, or groups of like atoms, with plus signs, and putting the numbers before the atomic symbols, you see it more like "A3B2." NH4C is also an ionic solid, which means that it's a solid formed by ionic bonds. When combining the two, it appears to make a gas, when in fact the two compounds are combining into small crystals in mid air from their individual gaseous phases. Upon settling, or - even quicker - boiling, and being trapped so that they don't float away while still forming, the ammonium chloride condenses into quite visible, milky crystals. Both ammonia and hydrochloric acid are actually gases, but being water soluble, they are often dissolved into water, making the aqueous solutions (the liquids) that you more typically see. Even as an aqueous solution, ammonia and hydrochloric acid release fumes of their respective gaseous forms, and simply having the two aqueous solutions near one another can cause the forming of ammonium chloride crystals in a smoke as the two clear gases combine in the air (as demonstrated very well in the video in my sources.)
Just as smoke from a fire has solid particles, as well as liquids and gases, the smoke formed from the combination of NH3 (aq) and HCl (aq) - (aq) being the attachment for indicating an 'aqueous' solution - has solid particles of NH4Cl, as well as possibly trace amounts of water from the solution, and the gases in the air. The smoke is actually heavier than air, weighed down by the solid crystals. Again, as is well demonstrated in the video in my sources (the second source), the gas can almost be 'poured out' of a beaker, as if a very thin and light liquid, and has a similar appearance to the smoke from putting dry ice in water. When the smoke settles, you can get a collection of NH4Cl crystals on whatever surface the smoke settles on. The reaction creates heat, and the heat can be considerable the larger and faster the reaction is.
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