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Amy C. Edmondson
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A Fuller Explanation
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Index
(Bold print indicates page number which includes illustration of entry.)
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I | cosahedron,
26,
39,
49 | | | "dimpling,"
63 | | | and geodesics,
236-240-
240-242 | | | jitterbug and,
161,
163-164 | | | net,
76 | | | "out-of-phase" role,
164,
167-169,
178,
180,
186,
216-217 | | | structural system,
61-63 | | | symmetry of,
73,
164-166,
213-
213-215,
233,
262,
263 | | | volume of,
163,
164 | | | see also
Closepacked spheres;
Dymaxion Map;
Great circles, icosahedron as local shunting circuit; | | |
Shell systems;
Universe, "trans-Universe" versus "locally operative system" | | I | cosadodecahedron,
49 | | I | nfinity,
23 | | | infinite straight line,
6,
84 | | | infinite number of vertices in sphere,
16-17,
79 | | | see also
Straight line | | I | ngber, Donald,
4,
257 | | I | n-Out versus Up-Down,
19-20 | | I | nterprecessing,
121- 124 | | I | ntertransformabilities,
46,
50-52,
140-143,
157,
189,
192,
204,
209,
210,
215-218 | |
I | nvention,
141,
240,
258 | | | gestation rates,
261-262 | | | inventor,
1 | | | see also
Design science | | I | nvisibility | | | invisible reality,
2,
14,
34,
163,
170,
172,
232,
246-247,
250-252,
256,
268 | | | invisible Universe,
162,
250 | | I | sotropic vector matrix (IVM),
10,
127-142 (Chapter 9),
143,
150,
159, | | |
164,
189,
192,
195-197 | | | alternating octahedra and tetrahedra, | | |
127-128,
131-134,
137,
146,
178,
189 | | | cube and IVM,
137-138-139 | | | equilibrium,
129 | | | frame of reference,
140,
143- 144,
146,
154-157,
164-165,
167,
170,
175, | | |
180-181,
183,
185,
188,
204,
217,
229 | | | IVM',
139,
140,
143,
150,
154,
180-181 | | | omnisymmetry,
129-130,
137,
141,
165,
183,
189 | | | omnitriangulation,
133 | | | square cross-section of IVM,
133-134 | | | VE and IVM,
135; see also
Vector equilibrium and space-filling | | | see also
Space-filling | | VM, see also
Isotropic vector matrix
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J | itterbug | | |
complex of jitterbugs,
170, 171 | | |
flexible VE model,
159,
169 | | |
solid-triangle model,
169 | | |
transformation,
159-163,
169,
170,
174,
213,
216 |
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L | east common denominator (LCD),
189-192,
195-196,
198,
213-218,
225,
234,
242-243 | |
L | ee, Tsung Dao,
179 | |
L | esser circle,
206 | | |
Tropic of Cancer,
206-207 | |
L | everage,
12,
56 | |
L | ife, see
Pattern integrity | |
L | ife-support,
24,
268 | |
L | ocal holding patterns,
222,
228 | |
L | oeb, Arthur L.,
3-5,
10,
37,
44-45,
45-48,
51,
52,
60,
143,
147,
155,
167,
180,
185,
196-197; | | |
see also
Space Structures |
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M | acCready, Paul Gossamer Albatross,
246-247 | |
M | althus, Thomas,
4,
268 | |
M | assachusetts Institute of Technology (MIT),
4,
5,
59,
65 | |
M | ercator projection,
263-264 | |
M | ite,
195-196,
199-200,
202 | | |
cubes and,
198-200 | | |
mirror symmetry of,
197-198,
202 | | |
rearrangement of,
202-203 | | |
rhombic dodecahedron and,
198-200 | |
M | ore with less,
268-269 | |
M | ozart,
58 | |
M | ultiplication by division,
143,
149,
154-157-
157-158,
163,
178,
193,
212 |
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N | ature's coordinate system,
2,
9,
9-11,
16,
17,
24,
34,
67,
68,
84,
102,
193 | |
N | ests, see
Closepacked spheres | |
N | et, polyhedral,
75,
76,
79,
193-194 | |
N | eutral axis,
247 | |
N | uclear spheres,
100-101,
105,
111,
201,
203 | | |
removal of,
117-118,
159,
164 | | |
tetrahedron and nuclei,
112-114,
120 | | |
VE and nuclei,
114-116,
118,
159 | | |
see also
Closepacked spheres |
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O | ctahedron,
38,
73,
139 | | |
closepacked spheres and,
107,
108,
120 | | |
jitterbug and,
161-163 | | |
net,
76 | | |
octahedral cavities,
92,
107,
129,
132-133,
150,
155,
166,
170,
178,
185 | | |
structural system,
61-64,
137 | | |
symmetry of,
73,
93,
209-211 | | |
truncated see
tetrakaidecahedron | | |
see also
Isotropic vector matrix,
B-module | |
O | ctant,
120,
137,
150-153,
151,
178,
185,
190 | |
O | ctet symmetry, see
Symmetry | |
O | ctet Truss,
1,
63-64,
141-142,
178,
198 | |
O | perational mathematics,
6,
8,
10,
24,
29-30,
143,
146,
175,
219,
235 | | |
operational procedure,
9,
18,
179,
193 |
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P | attern integrity,
54,
56-59,
97 | | |
life,
9,
58-59 | | |
knot,
57-59 | | |
"thinkable me,"
58 | | |
wave,
57-58,
171 | |
P | entagonal dodecahedron,
41,
49 | | |
symmetry of,
41,
49,
168,
216 | |
P | hase changes, see
Solids | | P | hilosophy (of Buckminster Fuller),
1,
32,
97-99,
260,
269 | | |
philosophy and geometry,
32 | |
P | i,
15-17 | |
P | latonic polyhedra,
34,
45,
252 | | |
derivation of,
37-40-
40-43 | | |
see also
Regular polyhedra Poles of spinnability,
44,
116,
208 | |
P | rinciple of angular topology, | | |
see
Angular topology | |
P | rinciple of design covariables,
67 |
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Q | uantum,
28 | | |
discrete quanta,
144,
205,
238 | | |
edges (six) as one,
28,
59,
62,
63,
77,
125 | | |
physics,
179 | | |
units,
167 | | |
see also
A-module,
B-module |
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R | egular polyhedra,
28,
37-43,
52; | | |
see also
Platonic polyhedra | |
R | hombic dodecahedron,
28,
50-52,
218 | | |
duality of,
51,
181-182 | | |
icosahedron and,
137 | | |
IVM and,
137 | | |
space-filling property,
181-182,
185 | | |
spheric,
138-140,
183,
198,
200,
204 | | |
volume,
153,
154 | | |
see also
Mite, rhombic dodecahedron and
Mites | |
R | hombic triacontahedron,
26,
216,
225 | |
R | hombicuboctahedron,
155 | |
R | hombohedron,
135,
180,
185-186
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