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sugar
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NO3^- can be acidic depending on what the cation is. For example, a solution of ammonium nitrate (NH4NO3) would be acidic. But a solution of sodium nitrate (NaNO3) would be neutral. So, NO3^- cannot exist by itself. It needs a cation, and that will ultimately determine the pH.
Nonexistamine. If it did exist, the best name for it would probably be ammonium carbide, but that particular combination of atoms has loose bonds dangling ... it might theoretically exist as an ion or free radical, though a double or triple free radical (depending on exactly how the hydrogens are arranged) is massively unlikely. HCN and NH2CH3 are both real compounds called hydrogen cyanide (or cyanic acid) and aminomethane respectively.
Toxicity to Animals: Acute oral toxicity (LD50): 2217 mg/kg [Rat]. The LD50 [Human] is unknown as such an experiment would be unethical.
sodium chloride + ammonium nitrate would resolve to ammonium chloride and sodium nitrate due to a 2 salt swip swap like commonly demonstrated in "the golden book of chemistry" the No3 and the halgen group Cl swaping out on both compounds and causing the the respective products to be sodium nitrate NaNo3 and ammonium chloride NH4Cl NaCl + Nh4No3 ----> Nh4Cl + NaNo3 };]
The temperature will decrease.
sugar
Calcium nitride is Ca3N2 and is basic. Calcium nitrate is Ca(NO3)2 and is neutral.
You would add either ammonium nitrate or nitric acid.
In a standard double replacement reaction, you would have the following equation: Cu(NO3)2 + 2NH4OH -----> Cu(OH)2 + 2NH4NO3 Therefore, your products would be copper II hydroxide and ammonium nitrate.
how is this process done
3
Strontium and copper nitrate
Im not quite sure, but since potassium chloride and ammonium nitrate forms kno3, theoretically, sodium chloride and ammonium nitrate would form sodium nitrate. (Im not 100% sure due to that sodium chloride is more soluble than potassium chloride.)
ammonium nitride is a water soluble solid. it is formed (or so Ive read) by the double displacement reaction between lithium nitride and ammonium nitrate, leaving lithium nitrate and ammonium nitride. it is highly unstable and will explode violently if heated vigorously but can be made to decompose slowly if gently heated to around 100 degrees, for that reason i am guessing it would be safer to boil a dilute solution of the compound, but this may still be dangerous.
NO3^- can be acidic depending on what the cation is. For example, a solution of ammonium nitrate (NH4NO3) would be acidic. But a solution of sodium nitrate (NaNO3) would be neutral. So, NO3^- cannot exist by itself. It needs a cation, and that will ultimately determine the pH.