The "NA" in DNA and RNA stands for nucleic acid, so in this question, you are trying to find which nitrogen base ethier only DNA or only RNA has.
DNA has thymine, but RNA has uracil. Therefore, the biochemist could chemically analyze the virus for the presence of uracil.
To identify which nucleic acid is present in a virus, a biochemist could chemically analyze the virus for the presence of nitrogen bases specific to DNA (adenine, thymine, guanine, cytosine) or RNA (adenine, uracil, guanine, cytosine). By identifying the nitrogen bases present, the biochemist can determine whether the virus contains DNA or RNA.
When neon and nitrogen are mixed, they do not react chemically because they are both inert gases. The resulting mixture would simply contain a combination of neon and nitrogen gases. Neon is known for its bright red-orange glow when electrically charged, so the mixture might emit a similar color if placed in a discharge tube.
Quantify.
M8 paper
Because they are chemically inert (or noble) due to the presence of completely filled orbitals.
Because they are chemically inert (or noble) due to the presence of completely filled orbitals.
When neon and nitrogen are mixed, they do not react chemically because they are both inert gases. The resulting mixture would simply contain a combination of neon and nitrogen gases. Neon is known for its bright red-orange glow when electrically charged, so the mixture might emit a similar color if placed in a discharge tube.
1. Sir Frederick Gowland Hopkins
When a substance remains unchanged in the presence of nitrogen, it is likely due to its chemical inertness to nitrogen. This can be a result of the substance's molecular structure or its lack of reactivity with nitrogen molecules. Physical properties, such as solubility or vapor pressure, can also play a role in determining whether a substance remains unchanged in the presence of nitrogen.
By the presence of the apex.
defenitive
Nitrogen in the presence of other compounds can suppress the intensity of a glowing spill by competing for reactive species that contribute to the glow. Nitrogen does not contribute to the luminescence itself, but its presence can influence the overall chemical reactions happening in the spill.
No. argon is chemically unreactive due to the presence of completely filled orbitals.
nuclei
vegetable nutrients in water
Nitrogen is not very chemically active under normal conditions because it is a diatomic molecule (N2) with a very strong triple bond. However, nitrogen can become more reactive under certain conditions, such as at high temperatures or in the presence of catalysts.
It is used to detect and identify the presence of liquid chemical agents.
Nitrogen gas does not react with magnesium under normal conditions. Magnesium is relatively unreactive with nitrogen at room temperature due to the strong triple bond in N2. Heating magnesium to high temperatures in the presence of nitrogen gas can form magnesium nitride (Mg3N2).