Thank you for the kind words. I intend to make more. Super bowl is coming which is the time of year I do tend to get busy at work, but I will make more content when I can.
Thank you! It’s a fun platform to develop on and I have been using Houdini for over 10 years on a daily basis so that’s where it comes from. The explaining comes from teaching advanced Houdini classes at Gnomon in the evening for the past 5 years.
This is, without a doubt, the most interesting tutorial on quite a complicated and easily overlooked function due to its form and complexity. Thank you for making it fun.
Dude honestly. Thank you. So much. I;m so dumb. And you just working on the fundamentals. I can do so much shit, but i run out of shit to learn. So now I'm back to the atom. And you Sir. Peter Claes. Bless you FAM!!! Thank you for teaching my dumb ass!
This is just too good)) thank you very much Peter for your work! It is really useful! In previous videos you mentioned that you're going to make more videos like this, and the question is: are you still going to do that? Coz we really need such pure knowledge during these tough times)
Hi Marina, I’m glad you are enjoying the videos. I want to make more content, but I am currently not allowed by my current employer as they claim this channel is a conflict of interest. So I have put this channel on pause for now, but at some point in the future I will make more content as I love teaching and creating content. For now I am focusing on my finance channel: th-cam.com/channels/UEUzoYeMqlAIH1HnFcnxBA.html
Just wow!! explained to the point.. Loved it. Curious to know how the X-men Mystique effect been made. Is it a combination of cross & dot product? Any tip will be really helpful .
You would need the cross product for the axis of rotation which you would define on a per polygon basis. You would also need some kind of activation mask, like I did in the 'cost' video: th-cam.com/video/pTfzxTod7n4/w-d-xo.html Perhaps I can build a quick tutorial for this effect.
Great tutorial. Exactly what I was looking for! I have a question. In my case, when particles reach the end of the field, they just accumulate there in one area. How to make them continue to move freely?
You could make a parametric uv coordinate for the central curve, then sample the uvs of the central curve by the particles, then when the particles are getting close to the uv value of 1, you reduce the advection amplitude to zero (vexpression in the advect by volume pop).
Remarquable! Please don’t stop here , you are gifted
Thank you for the kind words. I intend to make more. Super bowl is coming which is the time of year I do tend to get busy at work, but I will make more content when I can.
Impressive skills and speed! I've hardly seen anyone using Houdini so fluently and safely, let alone while explaining it.
Thank you! It’s a fun platform to develop on and I have been using Houdini for over 10 years on a daily basis so that’s where it comes from. The explaining comes from teaching advanced Houdini classes at Gnomon in the evening for the past 5 years.
@@peterclaes5918 wow, thank you for sharing your knowledge with us!
Looking forward to the next video!
Me too :)!
This is, without a doubt, the most interesting tutorial on quite a complicated and easily overlooked function due to its form and complexity. Thank you for making it fun.
Glad you enjoyed it & you are welcome.
I love your tutorials man, this saved me a lot of time!
Excellent video! One that is worth watching a few times until it 'clicks' :)
Extremely useful and beneficial.👍👍
Peter keep up the spirit of teaching Houdini Man.love ur work.
I am so grateful for you sharing your knowledge with the community! Your understanding of this software is insane! Thank you!
Dude honestly. Thank you. So much. I;m so dumb. And you just working on the fundamentals. I can do so much shit, but i run out of shit to learn. So now I'm back to the atom. And you Sir. Peter Claes. Bless you FAM!!! Thank you for teaching my dumb ass!
omg thank you so much Peter!! this is what i m looking for.
Looking forward to the next video
This well explained !! and absolutly amazing.. Thank you so much..
Thank you so much for this tutorial, really well explained
Exactly what I was looking for. Thank you so much for taking the time to explain all this in great detail!
This is such a helpfull video! I like your art of teaching and explaining. Its cool to understand this things now. Thank you very much!
Thanks for the tut, really helpfull, good work.
Really useful for sure!! thank you so much!!
Thanks for these amazing tutorials Peter
Glad you liked it!
Wow, learned so much, thanks!
Awesome content, as always!
Thank you, I aim to make more as time permits.
Thank you so much❤️
Thank you !
pls keep up
some sin/cos will be amazing!
This is just too good)) thank you very much Peter for your work! It is really useful! In previous videos you mentioned that you're going to make more videos like this, and the question is: are you still going to do that? Coz we really need such pure knowledge during these tough times)
Hi Marina, I’m glad you are enjoying the videos.
I want to make more content, but I am currently not allowed by my current employer as they claim this channel is a conflict of interest.
So I have put this channel on pause for now, but at some point in the future I will make more content as I love teaching and creating content.
For now I am focusing on my finance channel: th-cam.com/channels/UEUzoYeMqlAIH1HnFcnxBA.html
@@peterclaes5918 I see now. Looking forward to your upcoming videos anyway
You are Wizard!!!
Enjoy & pick up lots of tricks!
Thank u man, that stuff is great!
Lots of applications too! Have fun with it!
Just wow!! explained to the point.. Loved it.
Curious to know how the X-men Mystique effect been made. Is it a combination of cross & dot product? Any tip will be really helpful .
You would need the cross product for the axis of rotation which you would define on a per polygon basis. You would also need some kind of activation mask, like I did in the 'cost' video: th-cam.com/video/pTfzxTod7n4/w-d-xo.html
Perhaps I can build a quick tutorial for this effect.
Great tutorial. Exactly what I was looking for!
I have a question. In my case, when particles reach the end of the field, they just accumulate there in one area. How to make them continue to move freely?
You could make a parametric uv coordinate for the central curve, then sample the uvs of the central curve by the particles, then when the particles are getting close to the uv value of 1, you reduce the advection amplitude to zero (vexpression in the advect by volume pop).
@@peterclaes5918 thanks! I will try this
with good examples
so cool!
excellent.
master!