Thank you so much for the dozens of fast past, yet comprehensive videos you've put out with such high quality presentations, you've already done so much. However, it would be even more awesome if you could finish off the last few subtopics for 7 and 8 for students in the upcoming years. But again, you have been super helpful during my education of IB physics so thank you so much.
@@AndyMasley I'm just beginning to realize how much you get bombarded with the same request I made. Sorry about that, you have a life to live as well 😅
I am from India,But today I got answers of question that everyone get success if they have teacher like you.God bless me that I got your video to clear my concept.Please keep going on.
When will the future videos be coming?? These are honestly the best IB physics videos I have found and have never understood nuclear physics better. Hope you make them soon! They are really really helpful
@@AndyMasley Fr… thanks so much those, your video was one of the most helpful sources I could find. Struggling to learn Feynman diagrams without you tho lol. Thanks for all the vids tho, saved my physics grade.
Many thanks and appreciation for the fabulous presentation .I hope to complete the remaining part of the topic 7 ( Feynman Diagrams) I really benefited greatly from the wonderful representation ... Thank you so much
Not a dumb question! This is just me running through what everything in the formula book. You just need to understand what the symbols on the table mean.
You should include how the Lagrangian in non-Abelian Lie renormalisation groups build up the standard model U(1) X SU(1) X SU(2). Particles are excitations of their respective quantum fields, with quantum chromodynamical colour confinement due to the beta function. Loop quantum gravity does not predict gravitons, a fault, which is something to be mentioned. Gravitons in heterotic string theory and n=8 supergravity models are important which is most symmetric with non-pointlike particles. Yang-Mills mass gap in the particle spectrum is significant as well, with the extension of the 5 dimensional Kaluza-Klein theory.
I was not emotionally prepared for this
I struggled with this video longer than any other I made trying to make any part of it intuitive but it is truly just not intuitive
wow. And just like that it's over. thank you Sir Andy, it's been a pleasure
It's an anticlimactic ending, I should make some final goodbye video with balloons and stuff saying you made it
despite the warning, i was not emotionally ready
Thank you so much for the dozens of fast past, yet comprehensive videos you've put out with such high quality presentations, you've already done so much. However, it would be even more awesome if you could finish off the last few subtopics for 7 and 8 for students in the upcoming years. But again, you have been super helpful during my education of IB physics so thank you so much.
Hoping to get to them! The year was much busier than I had hoped. So so happy to hear they've been helpful for you
@@AndyMasley I'm just beginning to realize how much you get bombarded with the same request I made. Sorry about that, you have a life to live as well 😅
@@torstenjacobi3060 haha it's all good! I do want to finish the curriculum. Last year was much busier than I expected
2:31 thanks for the callout
I am from India,But today I got answers of question that everyone get success if they have teacher like you.God bless me that I got your video to clear my concept.Please keep going on.
When will the future videos be coming?? These are honestly the best IB physics videos I have found and have never understood nuclear physics better. Hope you make them soon! They are really really helpful
Hoping to have them done in November at the latest
@@AndyMasley is it done?
I will cry
This is it this is the single worst part of the IB SL physics curriculum fr
@@AndyMasley Fr… thanks so much those, your video was one of the most helpful sources I could find.
Struggling to learn Feynman diagrams without you tho lol.
Thanks for all the vids tho, saved my physics grade.
Many thanks and appreciation for the fabulous presentation .I hope to complete the remaining part of the topic 7 ( Feynman Diagrams)
I really benefited greatly from the wonderful representation ... Thank you so much
Amazing Standard Model Chart! So awesome to see everything at a glance. Do you mind doing a video on the Feynman Diagrams?
I've had a very busy summer but hoping to make the video soon!
4 days left before Paper 1! Thank you for this but im so mad that there arent any HL videosssss 😭
thank you very much, is there also a lecture about Feynman diagrams?
Sadly didn't get around to it
Amazing explanation , thank you so much:)
Hi! Will you be having a video on Feynman diagrams :(
wheres the video on feynman diagrams
I failed fam sorry 😭😭😭
when the world needed him most, he wanished
@@piavodusek3868 😭😭😭😭
@@AndyMasley The real Andy Masley does not use emojis and slang. Is his account run by someone else now?
@@tamish4506 I don't use emojis in my videos but the comments are a different story
thanks for the lesson. Hopefully u will release the next video soon. well done Sir.
Might be a dumb question, but what exactly am i supposed to memorize, if everything is written on the formula booklet?
Not a dumb question! This is just me running through what everything in the formula book. You just need to understand what the symbols on the table mean.
Quark Quark Quark QuArk QUaRK QUark QUARK QUARK QUARK
You should include how the Lagrangian in non-Abelian Lie renormalisation groups build up the standard model U(1) X SU(1) X SU(2). Particles are excitations of their respective quantum fields, with quantum chromodynamical colour confinement due to the beta function. Loop quantum gravity does not predict gravitons, a fault, which is something to be mentioned. Gravitons in heterotic string theory and n=8 supergravity models are important which is most symmetric with non-pointlike particles. Yang-Mills mass gap in the particle spectrum is significant as well, with the extension of the 5 dimensional Kaluza-Klein theory.