How Do You Make A Paper Model Of The Molecular Structure Of Diamonds?
• Make from paper a truncated tetrahedron (more on this later), so that the four points are replaced with four equilateral triangles, and the faces formerly known as triangles are now hexagons (regular hexagons work best). Make at least a couple dozen identical such “carbon atoms” around an inch and a half in width’; } s += “”; document.write(s); return; } google_ad_channel = ‘+7733764704+1640266093+9911500640+7416705818+8962074949+8941458308+7122150828’ + xchannels + gchans; google_ad_client = “pub-9543332082073187”; google_ad_output = ‘js’; google_ad_type = ‘text’; google_feedback = ‘on’; google_ad_region = “test”; google_ad_format = ‘250x250_as’; //–> Glue them loosely together so that the equilateral triangle “points” overlap exactly. That is, two glued-together triangle faces are touching vertex to vertex. The angles don’t work out quite exactly, but make sure a minimal ring of five “carbons” fully joins to form a pentagonal hole. A minimal benzene-ring-esque construct. Make sure
• Make from paper a truncated tetrahedron (more on this later), so that the four points are replaced with four equilateral triangles, and the faces formerly known as triangles are now hexagons (regular hexagons work best). Make at least a couple dozen identical such “carbon atoms” around an inch and a half in width Glue them loosely together so that the equilateral triangle “points” overlap exactly. That is, two glued-together triangle faces are touching vertex to vertex. The angles don’t work out quite exactly, but make sure a minimal ring of five “carbons” fully joins to form a pentagonal hole. A minimal benzene-ring-esque construct. Make sure the ring can form.
