Fyndium
International Hazard
Posts: 1192
Registered: 12-7-2020
Location: Not in USA
Member Is Offline
|
|
Reaction kinetics - very long stirrings?
There were a synthesis which called for very long stirring - 48 hours - while another source stated that only 4 hours was enough. On the other hand,
the long stir produced almost twice the yield. What could explain this kind of difference, except for time saving? Also, how could I determine a speed
of reaction, what I need to know or learn?
|
|
chemship1978
Harmless
Posts: 32
Registered: 8-6-2018
Member Is Offline
|
|
I think this will prove useful to you https://en.wikipedia.org/wiki/Reaction_rate The maths isn't that hard when
considering simple processes.
|
|
MidLifeChemist
Hazard to Others
Posts: 192
Registered: 4-7-2019
Location: West Coast USA
Member Is Offline
Mood: precipitatory
|
|
What synthesis was it?
|
|
greenlight
National Hazard
Posts: 734
Registered: 3-11-2014
Member Is Offline
Mood: Energetic
|
|
Basically put, stirring increases the chance of collisions between the reagents to produce the desired product. The molecules not only have to
collide but also hit each other the right way (positive and negative charges) to interact and form the product. The longer you stir, the more
collisions which results in higher yield.
Did the reaction require you to heat it (reflux)?
Temperature is another major factor. The higher the temperature, the more energy the molecules gain from the heat energy. This means they move at a
faster speed proportional to the amount of heat applied.
Faster moving molecules means more collisions too.
Be good, otherwise be good at it
|
|
Fyndium
International Hazard
Posts: 1192
Registered: 12-7-2020
Location: Not in USA
Member Is Offline
|
|
It was just a common example of biphasic ester base hydrolysis with stirring at NTP. I don't believe a research paper has a misprint, but supposedly
the rate of diminishing returns applies here. Just caught my eye because the time difference is 10-fold.
|
|