What is symmetry and why is it important in different fields?'

Symmetry is a fundamental principle seen in nature, art, architecture, science, and engineering. This course shows how symmetry influences design, material properties, and even chemical structures, providing a framework for understanding the world.

What will I learn about symmetry in art and design?

You will learn to identify and analyze symmetry in various art forms, including Escher's work and Islamic architecture. The course covers tiling, tessellations, and how these concepts apply to creative design.

How does this course connect symmetry to science and engineering?

This course explains symmetry's role in atomic structures, crystalline materials, and chemical composition. You will understand point and space symmetry, their mathematical descriptors, and their practical impact in fields like materials science and drug design.

Do I need a background in mathematics or science for this course?'

A general interest in science and design is helpful. The course introduces mathematical concepts of symmetry clearly, making it accessible. No advanced background in mathematics, chemistry, or engineering is required.

When will I have access to the lectures and assignments?

To access the course materials, assignments and to earn a Certificate, you will need to purchase the Certificate experience when you enroll in a course. You can try a Free Trial instead, or apply for Financial Aid. The course may offer 'Full Course, No Certificate' instead. This option lets you see all course materials, submit required assessments, and get a final grade. This also means that you will not be able to purchase a Certificate experience.

What will I get if I purchase the Certificate?

When you purchase a Certificate you get access to all course materials, including graded assignments. Upon completing the course, your electronic Certificate will be added to your Accomplishments page - from there, you can print your Certificate or add it to your LinkedIn profile.

Is financial aid available?

Yes. In select learning programs, you can apply for financial aid or a scholarship if you can’t afford the enrollment fee. If fin aid or scholarship is available for your learning program selection, you’ll find a link to apply on the description page.

Beauty, Form & Function: An Exploration of Symmetry

Nanyang Technological University, Singapore

Beauty, Form & Function: An Exploration of Symmetry

Instructors: Tim White

3,445 already enrolled

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8 modules

Gain insight into a topic and learn the fundamentals.

Beginner level

No prior experience required

2 weeks to complete

at 10 hours a week

Flexible schedule

Learn at your own pace

8 modules

Gain insight into a topic and learn the fundamentals.

Beginner level

No prior experience required

2 weeks to complete

at 10 hours a week

Flexible schedule

Learn at your own pace

What you'll learn

Analyze symmetry in natural forms, art, and architecture.
Apply principles of tiling and tessellation to design concepts.
Understand atomic structure through crystal symmetry.
Connect symmetry concepts to science and engineering applications.

Skills you'll gain

Details to know

Shareable certificate

Add to your LinkedIn profile

Assessments

8 assignments¹

AI Graded see disclaimer

Taught in English

91%

of learners achieved a positive career outcome

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There are 8 modules in this course

This course is for anyone interested in the fundamental principles of symmetry across various fields, including art, architecture, science, and engineering.

By the end of this course, you will be able to: - Analyze symmetry in natural forms, art, and architectural designs. - Apply tiling and tessellation concepts to design and crystal structures. - Understand the mathematical descriptors of point and space symmetry. - Connect symmetry principles to real-world applications in science and engineering. To be successful, a general interest in science and design is helpful. No specific software is required. You will learn from specialists in botany, art, history, science, and engineering, gaining insights into symmetry's impact on their disciplines.

Module details

These lectures will refresh your intuitive appreciation of symmetry in common objects and introduce the mathematical and symbolic descriptors of point symmetry.

What's included

7 videos4 readings3 assignments

7 videosTotal 145 minutes

On Demand Briefing: Concepts in Symmetry 5 minutes
Lecture I-1: A World of Symmetry13 minutes
Lecture I-2: Symmetry of Common Objects13 minutes
Additional Video: Dr. Nigel Taylor - Designing Gardens & Observing Botanical Symmetry15 minutes
Additional Video: Mr. Victor Lim - Process for Restoring Tiles to Their Former Glory21 minutes
Additional Video: Professor Peer M Sathikh - Links Between Performance Art & Islamic Design27 minutes
Additional Video: Dr. Gul Inanc - An Historical Perspective of the Origins of Islamic Designs51 minutes

4 readingsTotal 40 minutes

Course Overview and Syllabus10 minutes
Meet Your Instructors10 minutes
Assignment Downloads & Broadening Links10 minutes
Week 1 & 2: Lecture & Tutorial Materials10 minutes

3 assignmentsTotal 30 minutes

Knowledge Check 110 minutes
Knowledge Check 210 minutes
Knowledge Check 310 minutes

Some of the most beautiful examples of symmetry appear in flowers. These lectures use flowers as exemplars of the application of point symmetry to concisely describe the presence of mirror lines and rotation points.

What's included

6 videos

The key concepts in plane symmetry are illustrated by examining tessellations in architecture. The important concept of the asymmetric unit is also introduced. The practical importance of symmetry is illustrated through a discussion of chirality and its impact on drug design and efficacy.

What's included

3 videos2 readings

The formal mathematical nomenclature of point symmetry is introduced, including the relationship between symmetrically linked objects.

What's included

3 videos3 assignments

Plane Groups that describe symmetry operations in 2 dimensions are illustrated using the art of Escher. The 2D Bravais Lattices that capture all tiling permutations are covered together with the difference between ‘primitive’ and ‘centred’ unit cells.

What's included

3 videos1 reading

The 17 Plane Groups are formally introduced and their representation in the International Tables of Crystallography explained. By mastering the plane group diagrams and figures, all common tessellations can be deconstructed into their symmetric components.

What's included

3 videos

These lectures examine the role of symmetry in Islamic architecture and history in the context of regular and irregular networks. The transition to 3D or Space Symmetry is via the five Platonic Solids. The 2D symmetry operators (rotation, reflection, glide) are expanded to include screw axes and axial glide in 3D symmetry.

What's included

3 videos2 readings

The 3D Bravais Lattices are the basis for describing the atomic relationships found in many crystalline materials. The way in which Space Symmetry determines not only the atomic locations but also the chemical composition of crystals is explained.