It's a little different, but hopefully you'll still find it helpful! By the way, if you were wondering: If all goes well, I'll additionally post an instructional video for an origami model this month.
Nice video, I especially like the bit at the end which talks about the final model sizes and I can see how people think just adding 1cm to each side will work when it doesn't. In Tom Hulls project origami he has an interesting section on the 1:3 ratio of his FIT unit which you may be interested in :)
I also can't believe you had to make this video but congratulations on making it so clear.
It's a little different, but hopefully you'll still find it helpful!
By the way, if you were wondering:
If all goes well, I'll additionally post an instructional video for an origami model this month.
Nice video, I especially like the bit at the end which talks about the final model sizes and I can see how people think just adding 1cm to each side will work when it doesn't. In Tom Hulls project origami he has an interesting section on the 1:3 ratio of his FIT unit which you may be interested in :)
I submitted it. Now it will take some months for my examiners to read it, and then I'll have my defense. After that I'll hopefully get my PhD. :)
If all goes well, I'll additionally post an instructional video for an origami model this month.
Very nice!
Really nice job, thank you illustrating us. :D
Greetings,
Thank you for sharing paper in Proportions. Thank you, thank you. pax, PL
"3 inch by 3 inch by 3inch by 3 inch" - that would be a four dimensional paper square :)
Aw, was expecting a model. Great video nevertheless.
I can't believe you had to make this video.
can you show us how to make the one piece twist box
I was never good a proportions I ended up seeing these as fractions instead of proportions.
do u have instagram
Mathematical counting while preparing model is necessary…. And your guidelines about it is too good
same thing
I was good ath math, so this is boring and obvios. ;-)