Chloroform is a highly volatile liquid that has been widely used throughout history due to its narcotic properties and has a reputation for anaesthetizing or rendering people unconscious, even when consumed in small doses.
Midazolam injection is also used to cause a state of decreased consciousness in seriously ill people in intensive care units (ICU) who are breathing with the help of a machine. Midazolam injection is in a class of medications called benzodiazepines.
Ingestion of chloroform can cause a burning sensation in the mouth and throat, nausea and vomiting. Chloroform can be absorbed into the body via ingestion or inhalation. Symptoms include excitement and nausea followed by dizziness and drowsiness.
Although synthesizing chloroform requires the sophisticated knowledge of a chemist, there is no permit necessary to purchase it, and the substance can be readily purchased at most chemical-supply stores. But remember: Just because you can get your hands on it, doesn't mean you can use it like they do in the movies.
Inhalation of chloroform can cause severe acute toxicity, as described in the general toxicity section. Inhalation of concentrated chloroform vapour causes irritation of exposed mucous membranes, including the nose and throat .
The Environmental Protection Agency says chloroform is 40 times sweeter than sugar, and has a very pleasant smell. According to UNCW Chemistry Professor Pamela Seaton, just a tiny amount of the chemical — about 1.5 ounces or the size of a shot glass — can kill.
Bleach and rubbing alcohol create chloroform. This combination is highly toxic and can cause damage to your eyes, lungs, and liver. Combining these products can create peracetic / peroxyacetic acid, which can be highly corrosive and irritate your eyes, skin, and respiratory tract.
The anesthetic was mixed with air in known concentrations. Fluothane and chloroform produced similar anesthesia, and was 4 1/2 times more potent than ether. Induction with fluothane was faster than with chloroform and ether. Fluothane seems slightly more potent than chloroform and has an equal margin of safety.
In concentrations of 3–5% in air, an anesthetic effect can slowly be achieved in 15–20 minutes of breathing approximately 15–20 ml of ether, depending on body weight and physical condition. Ether causes a very long excitation stage prior to blacking out.
What happens when you mix rubbing alcohol and peroxide?
This reaction happens spontaneously and without warning. Mixing these two will form a corrosive, toxic chemical known as peracetic acid. This chemical could irritate your eyes and nose, but in extreme cases could cause serve chemical burns to your skin and mucous membranes.
What happens when you mix hydrogen peroxide and salt?
The mixture of sodium hydroxide and hydrogen peroxide produces a strong oxidizer called sodium peroxide and can result in an exothermic mist from the onset of high temperatures and heat from the decomposition of incompatible mixtures causing a severe thermal hazard. (2 NaOH + H2O2→Na2O2 + 2 H2O).
Combining these two substances together can produce a very dangerous compound called chloroform. Acetone and bleach create one of the oldest organic reactions known to create chloroform and this compound can knock you out cold within minutes. It's extremely toxic and can result in organ damage when inhaled.
When combined, it creates chloramine, a toxic gas that can cause respiratory problems. In fact, this is the reason you should never mix bleach with any other cleaning product aside from baking soda. Many commercial cleaning products contain ammonia, which can produce chloramine.
When baking soda is mixed with vinegar, something new is formed. The mixture quickly foams up with carbon dioxide gas. If enough vinegar is used, all of the baking soda can be made to react and disappear into the vinegar solution.
What happens when you mix hydrogen peroxide and sugar?
The mixture of sugar and hydrogen peroxide produces a renewable liquid fuel that can be stored for long periods - weeks, months, years - and used when needed to power automobiles or to heat homes, factories and office buildings, or to power steam turbines for producing electricity during peak-time demand.