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 :)
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.
I also can't believe you had to make this video but congratulations on making it so clear.
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. :)
Really nice job, thank you illustrating us. :D
"3 inch by 3 inch by 3inch by 3 inch" - that would be a four dimensional paper square :)
Greetings,
Thank you for sharing paper in Proportions. Thank you, thank you. pax, PL
Very nice!
Aw, was expecting a model. Great video nevertheless.
I can't believe you had to make this video.
do u have instagram
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.
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. ;-)