9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 8_14. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/8_14. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the composite link 2_2_1_#_3_1. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about tight knots, see http://en.wikipedia.org/wiki/Ropelength. For ropelength data, see http://www.jasoncantarella.com/wordpress/papers/. To see a movie...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the composite link 2_2_1_#_4_1. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about tight knots, see http://en.wikipedia.org/wiki/Ropelength. For ropelength data, see http://www.jasoncantarella.com/wordpress/papers/. To see a movie...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_2_10. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8a2. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 6_3_3. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/L6n1 For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
In this thesis, we study the feasibility of improving aluminum-carbon repulsive potentials for use in density-functional tight binding (DFTB) simulations of low-valence aluminum metalloid clusters. These systems are under consideration for use as novel fuels with rapid metal combustion kinetics, and contain an unusual mix of low-valence metal/metal bonds as well as organometallic components. We show that current DFTB parametrizations of the repulsive potential for Al/C interactions do not...
Topics: improved, density, functional, tight, binding, potentials, metalloid, aluminum clusters
9
9.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
"This is a model of the composite link 2_2_1_#_2_2_1_#_3_1_TreeA. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about tight knots, see http://en.wikipedia.org/wiki/Ropelength. For ropelength data, see...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the composite knot 3_1_#_3_1, or the composition of two overhand or trefoil knots. Since the trefoil knot comes in left and right-handed versions, there are two versions of this composite knot: the square knot 3_1 # 3_1_m, where a left-handed and right-handed trefoil are spliced together, and the granny knot 3_1 # 3_1 where two trefoils of the same handedness are spliced together. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
10
10.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 10
favorite 0
comment 0
This is a model of the prime knot 7_5. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/7_5. For more information about tight knots, see...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 7_4. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/7_4. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_2_3. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8a11. For more information about tight knots, see...
Topics: Math, Physical_Knot, Knot, TIght_Knot, stl, thingiverse, Link
9
9.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_2_4. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8a13. For more information about tight knots, see...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_2_13. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8a1. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_3_1. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8a18. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_3_9. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8n5. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 8_7. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/8_7. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 8_3. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/8_3. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
2
2.0
Nov 30, 2021
11/21
by
(sblfc)
data
eye 2
favorite 0
comment 0
This is a spanner with a short handle for the plastic 54mm nut that connects the toilet syphon/flusher to the actual toilet via the tube. I made this as my normal big wrench wouldn't fit as my cistern is behind a facade
Topics: 54mm, thingiverse, spanner, stl, wrench, tight, DIY, toilet, short
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_4_1. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8a21. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 7_6. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/7_6. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 6_1. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/6_1. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 7_2_5. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/L7a2 For more information about tight knots, see...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the composite link 2_2_1_#_5_2. Since 5_2 is a chiral knot, it comes in left and right-handed versions, and there are two topologically different versions of this link. Models of both are given here. They are tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_3_3. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8a15. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 6_2_1. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/L6a3 For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
3
3.0
Mar 13, 2021
03/21
by
Derek Tombrello (rebeltaz)
data
eye 3
favorite 0
comment 0
While working on my latest design (coming soon to a repository near you), I found myself needing to know just how tight my printers holes were. I mean, when you're trying to ram a 3mm rod into a hole, you want it to be a tight as possible without doing any permanent damage, right? To that end, I whipped up this basic little test block in FreeCAD that functions like bracketing on a camera (remember real cameras?) where you have the base line in the center and deviations on either side. In this...
Topics: thingiverse, tight, hole, thread, stl, 3D Printing Tests, test
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the composite link 2_2_1_#_2_2_1. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about tight knots, see http://en.wikipedia.org/wiki/Ropelength. For ropelength data, see http://www.jasoncantarella.com/wordpress/papers/. To see a...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 7_1. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/7_1. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 8_1. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/8_1. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_3_2. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8a17. For more information about tight knots, see...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 8_19. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/8_19. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_3_7. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8n3. For more information about tight knots, see...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_2_14. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8a7. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the composite link 2_2_1_#_5_1. Since the Hopf link 2_2_1 can be positive or negative, and the knot 5_1 comes in left and right-handed versions, there are two topologically different versions of this link. Both versions are included here. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 3_1, also called the trefoil knot or the overhand knot. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/3_1. For more...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 6_3. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/6_3. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 7_2_1. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/L7a6 For more information about tight knots, see...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 6_3_2. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/L6a4 For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 7_2_4. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/L7a3 For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 7_2_7. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/L7n1 For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 7_7. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/7_7. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 7_3. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/7_3. For more information about tight knots, see...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_2_7. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8a8. For more information about tight knots, see...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 8_4_2. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/L8n7. For more information about tight knots, see...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 8_11. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/8_11. For more information about tight knots, see...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Mar 19, 2021
03/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 8_18. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/8_18. For more information about tight knots, see...
Topics: Tight_Knot, Math, Physical_Knot, thingiverse, Link, Knot, stl
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime knot 8_21. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime knot, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/8_21. For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
12
12
Oct 20, 2018
10/18
by
https://www.flickr.com/photos/efd/
movies
eye 12
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comment 0
Source: https://www.flickr.com/photos/71983489@N00/4361104883 Uploader: https://www.flickr.com/photos/efd/
Topics: Flickr, video, bahamas, south, andros, reel, tight, snorkel, diving
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the composite link 2_2_1_#_2_2_1_#_3_1_TreeB. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about tight knots, see http://en.wikipedia.org/wiki/Ropelength. For ropelength data, see http://www.jasoncantarella.com/wordpress/papers/.
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
9
9.0
Apr 7, 2021
04/21
by
Jason Cantarella (DesignByNumbers)
data
eye 9
favorite 0
comment 0
This is a model of the prime link 7_2_3. It is tied in a tube of constant radius, and pulled tight. In the thin version, the tube has been reduced to half-size in order to help you see the crossings. In the thick version, the tube appears at full scale. These are easier to print without as much support material. For more information about this prime link, look at its page in the *Knot Atlas* http://katlas.math.toronto.edu/wiki/L7a4 For more information about tight knots, see...
Topics: Math, Physical_Knot, Tight_Knot, Knot, stl, thingiverse, Link
