This course covers the derivation of symmetry theory; lattices, point groups, space groups, and their properties; use of symmetry in tensor representation of crystal properties, including anisotropy and representation surfaces; and applications to piezoelectricity and elasticity.

Learn about using journals as primary sources and about how students can journal to reflect and make connections to astronaut experiences.

This article discusses the importance of teaching students to reflect on text through direct instruction and modeling. The article includes a template that can be used with elementary students.

This Google Sheet was created to support a Time Management module in a Strategies for College Success course. The plan is for the instructor to share one copy of the Sheet with each student for an assignment lasting 2 or 3 weeks. Students estimate the time they spend each week on common daily tasks, such as sleeping, working, or attending class. Space is provided for students to enter up to three custom tasks. After estimating how they spend time, students track their time spent for a full week. Through the magic of spreadsheet formulas, time spent per task is color-coded to help visualize large and small blocks of time. Time for the week is tallied on the summary tab, where a warning message appears if less than 24 hours are logged for any given day. After comparing their estimated hours to their actual recorded hours, students propose changes they can make in how they spend their time to increase their scholastic success. A tab with five questions is included for student reflection. Instructions for how to use the Sheet are provided for faculty on the Info & LIcense tab. Cell formulas are editable only by the document owner; students cannot accidentally overwrite. Colors are selected from a palette known to be perceivable by people with most forms of colorblindness. Author contact information is available on the Info and License tab.

This example of practice on evidence use in early childhood education and care (ECEC) comes from Manuka Childcare Centre (MOCCA) in Griffith, ACT. MOCCA's mission is to nurture, educate and advocate for children, families, the early childhood profession and their community.

In this case study, the centre director and a teacher working at MOCCA describe their use of evidence to improve outcomes for children. The case study also includes reflection questions to help teachers, educators and leaders consider how they can adapt aspects of MOCCA’s approach to their own ECEC setting.

This resource contains demonstrations used to illustrate the theory and applications of lasers and optics. A detailed listing of the topics can be found below.
Lasers today are being used in an ever-increasing number of applications. In fact, there is hardly a field that has not been touched by the laser. Lasers are playing key roles in the home, office, hospital, factory, outdoors, and theater, as well as in the laboratory.
To learn about lasers and related optics, one usually takes a course or two, or acquires the necessary information from books and journal articles. To make this learning more vivid and more exciting, and, one hopes, more understandable, one needs to see some of the basic phenomena involved. To fill this need, Professor Ezekiel has videotaped 48 demonstrations that illustrate most of the fundamental phenomena relating to lasers and physical optics.
By using split-screen inserts and a wide range of video-recording capabilities, it is possible to show real-time effects in lasers and optics with the simultaneous manipulation of the components that cause these effects. In this way, one can see effects in close up that would be difficult, if not impossible, to display in front of an audience or in the classroom.
These video demonstrations are designed for:

The individual student of lasers and optics who wants to observe the various phenomena covered in theoretical treatments in courses, books, and technical papers.
The Instructor in lasers and optics in a company, university, college, or high school who wants to illustrate, in class, many of the fundamental phenomena in optics and lasers.

These videos were produced by the MIT Center for Advanced Engineering Study.

A visualization exercise to help you imagine who you want to be in the future.

Students learn about the types of waves and how they change direction, as well as basic wave properties such as wavelength, frequency, amplitude and speed. During the presentation of lecture information on wave characteristics and properties, students take notes using a handout. Then they label wave parts on a worksheet diagram and draw their own waves with specified properties (crest, trough and wavelength). They also make observations about the waves they drew to determine which has the highest and the lowest frequency. With this knowledge, students better understand waves and are a step closer to understanding how humans see color.

This lesson has students investigate how albedo is contributing to temperature increasing in some places, like cities, are increasing at faster rates than elsewhere.

This lesson has students explore what land use changes are happening and how changes in surface color affects temperatures in cities.

MIT students are challenged daily to solve for x, to complete four problem sets, two papers, and prepare for an exam worth 30% of their grade… all in one night. When they do stop to breathe, it’s for a shower or a meal. What does this have to do with creative writing? Everything. Creative writing and MIT go together better than you might imagine.

In this lab, students will reflect on their experience with the Korean conversation labs. They will provide suggestions and discuss how they are going to utilize Korean in their future.