3.5 Electrophysiological studies of language processing
Human communication is vastly more complex than that of any other species we know about. It is so complex that linguists are only just beginning to identify the processes in the brain that are related to understanding language. This unit looks at how language is understood by taking an interdisciplinary approach.
3.4 Specialisation within language areas: brain scanning
Human communication is vastly more complex than that of any other species we know about. It is so complex that linguists are only just beginning to identify the processes in the brain that are related to understanding language. This unit looks at how language is understood by taking an interdisciplinary approach.
3.3 Specialisation within language areas: aphasia
Human communication is vastly more complex than that of any other species we know about. It is so complex that linguists are only just beginning to identify the processes in the brain that are related to understanding language. This unit looks at how language is understood by taking an interdisciplinary approach.
3.2 The anatomy of the language system
Human communication is vastly more complex than that of any other species we know about. It is so complex that linguists are only just beginning to identify the processes in the brain that are related to understanding language. This unit looks at how language is understood by taking an interdisciplinary approach.
3.1 Speech perception
Human communication is vastly more complex than that of any other species we know about. It is so complex that linguists are only just beginning to identify the processes in the brain that are related to understanding language. This unit looks at how language is understood by taking an interdisciplinary approach.
2.6 Summary of Section 2
Human communication is vastly more complex than that of any other species we know about. It is so complex that linguists are only just beginning to identify the processes in the brain that are related to understanding language. This unit looks at how language is understood by taking an interdisciplinary approach.
2.5 From phoneme to sentence structure: the syntactic problem
Human communication is vastly more complex than that of any other species we know about. It is so complex that linguists are only just beginning to identify the processes in the brain that are related to understanding language. This unit looks at how language is understood by taking an interdisciplinary approach.
2.3 From ear to phoneme: the phonological problem
Human communication is vastly more complex than that of any other species we know about. It is so complex that linguists are only just beginning to identify the processes in the brain that are related to understanding language. This unit looks at how language is understood by taking an interdisciplinary approach.
2.2 Generativity and duality of patterning
Human communication is vastly more complex than that of any other species we know about. It is so complex that linguists are only just beginning to identify the processes in the brain that are related to understanding language. This unit looks at how language is understood by taking an interdisciplinary approach.
1 Overview
Human communication is vastly more complex than that of any other species we know about. It is so complex that linguists are only just beginning to identify the processes in the brain that are related to understanding language. This unit looks at how language is understood by taking an interdisciplinary approach.
Learning outcomes
Human communication is vastly more complex than that of any other species we know about. It is so complex that linguists are only just beginning to identify the processes in the brain that are related to understanding language. This unit looks at how language is understood by taking an interdisciplinary approach.
Memory, War and Trauma
In 'Memory, War and Trauma' health psychologist Dr Nigel Hunt explains the background to his new book, offering a new understanding of the psychological impacts of war.
Rocking the Boat
The concepts of stability and equilibrium are introduced while students learn how these ideas are related to the concept of center of mass. They gain further understanding when they see, first-hand, how equilibrium is closely related to an object's center of mass. In an associated literacy activity, students learn about motion capture technology, the importance of center of gravity in animation and how use the concept of center of gravity in writing an action scene.
Programming as mathematical narrative
This paper describes a narrative-oriented approach to the design and analysis of a computational system and a set of activities for mathematical learning. Our central contention is that programming can offer a key to resolving the tension between the different representational structures of narrative and mathematical formalism. In the course of describing our approach, we make a distinction between the epistemic-cognitive elements of narrative and the social, cultural and affective elements. We
E-learning for enhancing management skills
The paper discusses design and development issues of an online program for enhancing management skills of Early Years Childcare practitioners. The program is developed in the frames of the EEEYMS* project by partners from UK, Bulgaria, Finland, and the Netherlands. The purpose is to design an ICT-based flexible learning solution for problem-based learning. The content is organized in nine modules. The learning materials are available online, through the Learnwise Learning Management System, and
Futurelab - Teachers Learning with Digital Technologies: A review of research and projects
If we are interested in changing education, we need more than ever to be interested in teacher education, teacher knowledge and teacher learning. If we want to encourage different approaches to teaching and learning, and new relationships between pupils and teachers, we need to understand the ways in which teachers come to learn, adapt and make such new approaches a reality. This review aims to provide an overview of the research on teacher education, and a roadmap for how this might best be sup
Baghera Assessment Project, designing an
hybrid and emergent educational society
The Baghera Assessment Project (BAP) has the objective to ex plore a new avenue for the design of e-Learning environments. The key features of BAP's approach are: (i) the concept of emergence in multi-agents systems as modelling framework, (ii) the shaping of a new theoretic al framework for modelling student knowledge, namely the cK¢ model. This new model has been constructed, based on the current research in cognitive science and education, to bridge research on education and research on the
Role of Assistance in Computer-mediated Communication in Higher Education
This paper reports preliminary findings of a small scale study that address the role of
assistance in computer-mediated communication (CMC) in Higher Education. In
particular, this study investigates whether the type of assistance in such environments
is affected by the type of task used to initiate the CMC, and to see whether the
instructors and students offer more or less assistance according to task type. We
examine courses which use CMC in the adjunct mode i.e. students used CMC as an
option
Go with the Flow
Students gain an understanding of the difference between electrical conductors and insulators, and experience recognizing a conductor by its material properties. In a hands-on activity, students build a conductivity tester to determine whether different objects are conductors or insulators. In another activity, students use their understanding of electrical properties to choose appropriate materials to design and build their own basic circuit switch.
Will It Fly?
In this lesson, students will learn about kites and gliders and how these models can help in understanding the concept of flight. Students will design and build their own balsa wood models and experiment with different control surfaces. The goal of this lesson is for students to apply their existing knowledge about the four forces affecting flight and apply engineering design to develop a sound glider. They will also communicate the reasoning and results of any design modifications made.