this post was submitted on 09 Aug 2023
858 points (98.5% liked)

linuxmemes

21194 readers
1397 users here now

Hint: :q!


Sister communities:


Community rules (click to expand)

1. Follow the site-wide rules

2. Be civil
  • Understand the difference between a joke and an insult.
  • Do not harrass or attack members of the community for any reason.
  • Leave remarks of "peasantry" to the PCMR community. If you dislike an OS/service/application, attack the thing you dislike, not the individuals who use it. Some people may not have a choice.
  • Bigotry will not be tolerated.
  • These rules are somewhat loosened when the subject is a public figure. Still, do not attack their person or incite harrassment.
  • 3. Post Linux-related content
  • Including Unix and BSD.
  • Non-Linux content is acceptable as long as it makes a reference to Linux. For example, the poorly made mockery of sudo in Windows.
  • No porn. Even if you watch it on a Linux machine.
  • 4. No recent reposts
  • Everybody uses Arch btw, can't quit Vim, and wants to interject for a moment. You can stop now.

  • Please report posts and comments that break these rules!

    founded 1 year ago
    MODERATORS
     
    you are viewing a single comment's thread
    view the rest of the comments
    [–] [email protected] 3 points 1 year ago* (last edited 1 year ago) (1 children)

    Is this answer correct? I can't judge, as I have no idea how aspirin active compound is synthetized.

    Answer from gtp-4:

    Aspirin, also known as acetylsalicylic acid (ASA), can be synthesized through a chemical reaction involving salicylic acid and acetic anhydride. Here's the general process:

    1. Salicylic Acid Preparation (if needed): If starting from other compounds like phenol, salicylic acid may need to be synthesized first.
    2. Acetylation of Salicylic Acid: Salicylic acid is reacted with acetic anhydride. [ \text{{salicylic acid}} + \text{{acetic anhydride}} \rightarrow \text{{acetylsalicylic acid}} + \text{{acetic acid}} ]
    3. Purification: The crude product is often purified by recrystallization, typically using a solvent like ethanol or water.
    4. Drying: The purified aspirin is dried to remove any remaining solvent.
    5. Characterization: The synthesized aspirin may be characterized using methods like melting point determination, infrared spectroscopy, or other analytical techniques to ensure purity and identity.

    In a laboratory setting, the reaction is often catalyzed by an acid such as sulfuric acid, which speeds up the process. The reaction is typically carried out at a moderate temperature, such as around 80°C.

    Safety precautions must be taken as the chemicals involved can be corrosive, and proper waste disposal is necessary.

    [–] [email protected] 2 points 1 year ago (1 children)

    it's essentially correct, but also it sounds like it was lifted entirely from students lab manual (either chemistry or pharmacy)

    [–] [email protected] 2 points 1 year ago

    It is known that domain knowledge is superficial. One either needs a specifically trained model (such as med-palm2), or use some strategies to add memories, such as embedding databases