YoVDO

A Comment on Learning

Offered By: GOTO Conferences via YouTube

Tags

GOTO Conferences Courses Working Memory Courses Design Patterns Courses

Course Description

Overview

Save Big on Coursera Plus. 7,000+ courses at $160 off. Limited Time Only!
Explore the intricacies of learning and teaching in this 51-minute conference talk from GOTO Chicago 2016. Delve into the Dreyfus model of skill acquisition, understand the differences between novices and experts, and learn effective strategies for teaching apprentices. Discover how the brain processes and stores information, with insights into working memory and long-term memory. Examine the application of design patterns and gain valuable teaching anecdotes. Investigate the concept of procedural brain and explore learning preferences through the Felder-Silverman model. Gain practical knowledge on overcoming encoding failures and enhancing learning experiences. This interactive session, presented by Aino Vonge Corry, offers valuable insights for experts facilitating learning and individuals committed to continuous personal development in their field.

Syllabus

Introduction
Dreyfus model of skill acquisition
Novice and Expert in Chess
You get a new apprentice
Start teaching the apprentice
The brain -memory
Working memory in action
Decoding patterns in working memory
Encoding patterns in Long- term Memory
Design Patterns - applying
Teaching Anecdote From the Beginning of the Century....
Procedural Brain
Learning Preferences - the Felder-Silverman model
Encoding fails


Taught by

GOTO Conferences

Related Courses

Computing: Art, Magic, Science - Part II
ETH Zurich via edX
Web Application Development: Basic Concepts
University of New Mexico via Coursera
Web Application Development: The Presentation Tier
University of New Mexico via Coursera
Técnicas Avançadas para Projeto de Software
Instituto Tecnológico de Aeronáutica via Coursera
Programmation objet immersive en Pharo
Inria (French Institute for Research in Computer Science and Automation) via France Université Numerique