Mark independent sides to be the measure of each of the variables. You can read off values using 3 particular directions that remain in that orientation as you move the point in the center. It makes it easier to locate and identify the internal points. For example. Label the triangle points to be 0. Label the sides in a clockwise direction to be 18, 36, 54, ... 180. Each point in the diagram defines the angles of unique triangle ABC that are easily read from the marked scales on each side..
One application is examining the composition of crystallizing magma, where every corner of the diagram represents one chemical component. Generally examining the behaviour of multi-component systems (even more than three compenents by adding cotectic lines and isotherms). You trace the crystallizing path along the diagram.
Spent the last 3 years at uni not understanding it, only stumbled across this now, recon I will pass my exam tomorrow now
Very good. This will be very helpful for a lot of students.
Mark independent sides to be the measure of each of the variables. You can read off values using 3 particular directions that remain in that orientation as you move the point in the center. It makes it easier to locate and identify the internal points.
For example. Label the triangle points to be 0. Label the sides in a clockwise direction to be 18, 36, 54, ... 180. Each point in the diagram defines the angles of unique triangle ABC that are easily read from the marked scales on each side..
The book cannot explain such an easy thing man just thank you
I spent so long not understanding a thing until I saw your video. Thank you, you saved a dental student!
Another Great UA-camr helping the whole world rather than just posting a stupid prank video that may get a million likes. Thank You, bro!!
Very resourcefully. Had a lot of problem explaining it during my presentation; natheless, I am confident now for the next one. Much oblige
great...learned the plot point in the ternary mixture! great job!!
Thanks; great video! I think I finally understand these types of diagrams.
Thanks, man! Very clear and friendly explaination :)
You're a lifesaver! Thank you.
Very well explained, thank you!
thank you very much! step by step procedure on how to use the diagram.
One application is examining the composition of crystallizing magma, where every corner of the diagram represents one chemical component. Generally examining the behaviour of multi-component systems (even more than three compenents by adding cotectic lines and isotherms). You trace the crystallizing path along the diagram.
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Glad it was helpful!
Very helpful, thanks.
Thank you very much. Very useful and clear.
Thank you so much for this important information. It is very clear.
very well explained thank you very much!
Clear and simple, thanks a lot
Thanks, now im ready for my prac!
What program are you using for drawing? Very good explanation!
Thanks for your video! Still getting a bit confused but I do get it. Just need to practice! Thanks again!
I definitely needed this, tysm bruv
Wow it was actually very well explained
Good job.Thanks much.
thanks alot it was so helpful
This video was soo helpful. Great explanation. Thank you :))
Thank you so much sir. This explanation is clear and to the point
Wow thank you so much! My human geog doubts are cleared!
excellent❤❤❤
Thanks a lot!
where is the second video?
thank you man! good job
Good job! Thanks.
Thank you very much).
Thank you
Thank u 🌹❤️
Quite helpful
Thank you!
this video really helped thanks :)
thank you very much
Another application is to do the partially immisible liquid liquid extraction problem.
very good!
which software you used for plotting psudoternary phase diagram..?
SigmaPlot or Origin...
you are my angel!!!!
thank you bro
THANK U
:) Thank you!
thank you :)
muchas gracias
thank you
I was great
You may have some interest in a series of videos focused on reading crystallization paths: ua-cam.com/video/NuvEzQX0xnk/v-deo.html
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bruh what is this
Thank you
thank u
Thank you