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Workshop

Manipulating light at the nanoscale (Lectures 3–5), at Nano-optics: Principles enabling basic research and applications, Centro Ettore Majorana (Erice), Thursday, July 9, 2015:
talk_2503.pdf
In these interactive lectures we explore how light can be manipulated at the nanoscale. We begin by describing optical propagation in ordinary materials and then show how materials can be engineered to achieve a refractive index of zero. These zero-index materials have remarkable properties and can be integrated in photonic circuits. We also give an introduction to nonlinear optics and discuss how zero-index materials can be used to accomplish phase matching in nonlinear optics.

Outline

 

  • Optical properties of materials
  • Dispersion of...
Read more about Manipulating light at the nanoscale (Lectures 3–5)
Manipulating light at the nanoscale (Lectures 1 and 2), at Nano-optics: Principles enabling basic research and applications, Centro Ettore Majorana (Erice), Wednesday, July 8, 2015:
talk_2363.pdf
In these interactive lectures we explore how light can be manipulated at the nanoscale. We begin by describing optical propagation in ordinary materials and then show how materials can be engineered to achieve a refractive index of zero. These zero-index materials have remarkable properties and can be integrated in photonic circuits. We also give an introduction to nonlinear optics and discuss how zero-index materials can be used to accomplish phase matching in nonlinear optics.

Outline

 

  • Optical properties of materials
  • Dispersion of...
Read more about Manipulating light at the nanoscale (Lectures 1 and 2)
The Flipped Classroom - Confessions of a Harvard Professor, at Academic Staff Development, Universität Konstanz (Konstanz, Germany), Thursday, June 11, 2015:
talk_2471.pdf
"If we continue to lecture, we will very quickly become obsolete," says Eric Mazur, professor of physics at Harvard University. In times of increasing availability of study material and recorded lectures online, one question is becoming more and more frequent: hy hold a lecture over and over again when you could simply record it and provide it to your students ? The method of the Flipped Classroom takes this idea and adds to it by creating a learning setting that facilitates students’ learning processes. Providing the students with the information input before class, the instructors use the... Read more about The Flipped Classroom - Confessions of a Harvard Professor
Flat space, deep learning, at EduTECH 2015 (Brisbane, Australia), Thursday, June 4, 2015:
talk_2465.pdf
This masterclass will focus on how we can give students ownership of their learning using a team-based, project-based approach.

This new approach has no standard lectures or exams, yet students’ conceptual gains are significantly greater than those obtained in traditional courses. The course blends six best practices to deliver a learning experience that helps students develop important skills, including communication, estimation, problem solving, and team skills, in addition to a solid conceptual understanding of the material. This masterclass will discuss the course philosophy and...

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Flat space, deep learning, at Brigham Young University - Idaho (Rexburg, ID), Friday, May 15, 2015:
talk_2405.pdf
The teaching of physics to engineering students has remained stagnant for close to a century. In this novel team-based, project-based approach, we break the mold by giving students ownership of their learning. This new course has no standard lectures or exams, yet students’ conceptual gains are significantly greater than those obtained in traditional courses. The course blends six best practices to deliver a learning experience that helps students develop important skills, including communication, estimation, problem solving, and team skills, in addition to a solid conceptual understanding... Read more about Flat space, deep learning
How student learning transformed my teaching, at Brigham Young University - Idaho (Rexburg, ID), Friday, May 15, 2015:
talk_2406.pdf
I thought I was a good teacher until I discovered my students were just memorizing information rather than learning to understand the material. Who was to blame? The students? The material? I will explain how I came to the agonizing conclusion that the culprit was neither of these. It was my teaching that caused students to fail! I will show how I have adjusted my approach to teaching and how it has improved my students' performance significantly
Peer Instruction, at Brigham Young University - Idaho (Rexburg, ID), Friday, May 15, 2015:
talk_2407.pdf
The basic goals of Peer Instruction are to encourage and make use of student interaction during lectures, while focusing students' attention on underlying concepts and techniques. The method has been assessed in many studies using standardized, diagnostic tests and shown to be considerably more effective than the conventional lecture approach to teaching. Peer Instruction is now used in a wide range of science and math courses at the college and secondary level. In this workshop, participants will learn about Peer Instruction, serve as the "class" in which Peer Instruction is demonstrated,... Read more about Peer Instruction
Teaching Physics, Conservation Laws First, at Brigham Young University - Idaho (Rexburg, ID), Thursday, May 14, 2015:
talk_2484.pdf
The Principles and Practice of Physics is a groundbreaking new calculus-based introductory physics textbook that uses a unique organization and pedagogy to allow students to develop a true conceptual understanding of physics alongside the quantitative skills needed in the course. The book organizes introductory physics around the conservation principles and provides a unified contemporary view of introductory physics. In this talk we will discuss the unique architecture of the book, the conservation-laws-first approach, and results obtained with this book.
Teaching students one-on-one, all at once, at 100K10 Partner Summit (Chicago, IL), Wednesday, May 13, 2015:
talk_2482.pdf
Most of education focusses on the transfer of information, often in a lecture format. Yet, education is much more than just the transfer of information. In this Master Class, we explore Peer Instruction, an interactive pedagogy that encourages students to interact and engage in deep learning during class.
Flat space, deep learning, at Pearson Biology Leadership Conference 12 (Austin, TX), Saturday, March 28, 2015:
talk_2415.pdf
The teaching of physics to engineering students has remained stagnant for close to a century. In this novel team-based, project-based approach, we break the mold by giving students ownership of their learning. This new course has no standard lectures or exams, yet students’ conceptual gains are significantly greater than those obtained in traditional courses. The course blends six best practices to deliver a learning experience that helps students develop important skills, including communication, estimation, problem solving, and team skills, in addition to a solid conceptual understanding... Read more about Flat space, deep learning

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