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Algorithms are used in different ways such as analyzing and designing geometric folding. Learning that your algorithm knowledge is useful should motivate you to keep in improving so you can use it in different ways efficiently.
You will be provided in this [course_title] knowledge of reconfiguration of foldable structures, linkages, and other materials. Applications of the algorithm can be used to the fields of architecture, robotics, manufacturing, and biology.
Assessment
This course does not involve any written exams. Students need to answer 5 assignment questions to complete the course, the answers will be in the form of written work in pdf or word. Students can write the answers in their own time. Each answer needs to be 200 words (1 Page). Once the answers are submitted, the tutor will check and assess the work.
Certification
Edukite courses are free to study. To successfully complete a course you must submit all the assignment of the course as part of the assessment. Upon successful completion of a course, you can choose to make your achievement formal by obtaining your Certificate at a cost of £49.
Having an Official Edukite Certification is a great way to celebrate and share your success. You can:
- Add the certificate to your CV or resume and brighten up your career
- Show it to prove your success
Course Credit: MIT
Course Curriculum
Module: 1 | |||
Lecture 1: Overview | 01:20:00 | ||
Lecture 2: Simple Folds | 01:23:00 | ||
Lecture 3: Single-Vertex Crease Patterns | 01:23:00 | ||
Lecture 4: Efficient Origami Design | 01:26:00 | ||
Lecture 5: Artistic Origami Design | 01:26:00 | ||
Lecture 6: Architectural Origami | 01:18:00 | ||
Lecture 7: Origami is Hard | 01:22:00 | ||
Lecture 8: Fold & One Cut | 01:21:00 | ||
Lecture 9: Pleat Folding | 01:23:00 | ||
Lecture 10: Kempe’s Universality Theorem | 01:18:00 | ||
Lecture 11: Rigidity Theory | 01:24:00 | ||
Lecture 12: Tensegrities & Carpenter’s Rules | 01:24:00 | ||
Lecture 13: Locked Linkages | 01:22:00 | ||
Lecture 14: Hinged Dissections | 00:53:00 | ||
Lecture 15: General & Edge Unfolding | 01:21:00 | ||
Lecture 16: Vertex & Orthogonal Unfolding | 01:22:00 | ||
Lecture 17: Alexandrov’s Theorem | 01:21:00 | ||
Lecture 18: Gluing Algorithms | 01:21:00 | ||
Lecture 19: Refolding & Smooth Folding | 01:25:00 | ||
Lecture 20: Protein Chains | 01:19:00 | ||
Lecture 21: HP Model & Interlocked Chains | 01:10:00 | ||
Module: 2 | |||
Class 1: Overview | 00:51:00 | ||
Class 2: Univeresality & Simple Folds | 00:53:00 | ||
Class 3: Single-Vertex Crease Patterns | 00:46:00 | ||
Class 4: Efficient Origami Design | 00:49:00 | ||
Class 5: Tessellations & Modulars | 00:38:00 | ||
Class 6: Architectural Origami | 00:45:00 | ||
Class 7: Origami is Hard | 00:50:00 | ||
Class 8: Fold & One Cut | 00:50:00 | ||
Class 9: Pleat Folding | 00:46:00 | ||
Class 10: Kempe’s Universality Theorem | 00:44:00 | ||
Class 11: Generic Rigidity | 00:50:00 | ||
Class 12: Tensegrities | 00:18:00 | ||
Class 13: Locked Linkages | 00:52:00 | ||
Class 14: Hinged Dissections | 00:53:00 | ||
Class 15: General & Edge Unfolding | 00:51:00 | ||
Class 16: Vertex & Orthogonal Unfolding | 00:41:00 | ||
Class 17: D-Forms | 00:44:00 | ||
Class 19: Refolding & Kinetic Sculpture | 00:31:00 | ||
Class 20: 3D Linkage Folding | 00:39:00 | ||
Assessment | |||
Submit Your Assignment | 00:00:00 | ||
Certification | 00:00:00 |
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