Enhancing Modern Languages Teaching: Student Participation and Motivation
Enhancing Modern Languages Teaching: Student Participation and Motivation
Oral Traditions and Modern Adaptations: Survey of Appalachian Folktales in Children's Literature
Article surveying Appalachian folktales in books, films and dramatic adaptations for children and families. It analyzes modern methods of adapting tales from oral traditions, including treatment of gender roles and regional language. Connections with earlier European, Native American, and African folktale traditions are discussed. Different styles of illustrating and dramatizing folktales are compared.
Oral Public Health and Community Service Program
This course addresses the following questions: What are Public Health, Civic Engagement, and Community Service, and how do they relate to general health and well-being? What are the fundamentals of epidemiology and biostatistics and what are their practical applications in general health and healthcare? Why are oral health and oral healthcare access major public health issues world-wide? How do the oral public health issues of water fluoridation, mercury disposal, HIV/AIDS, cancer, and tobacco u
Oral History and Digital Stories from Cape Town People in South Africa have a dynamic, but largely unrecorded heritage. The Centre for Popular Memory (CP Oral presentations workshop Oral presentations handout Enhancing Physics Knowledge for Teaching – Motion in the Plane Enhancing Physics Knowledge for Teaching – Current, Electricity Enhancing Physics Knowledge for Teaching – Maxwell’s Equations Enhancing Physics Knowledge for Teaching – Geometrical Optics Enhancing Physics Knowledge for Teaching – Wave Optics Enhancing Physics Knowledge for Teaching – Atoms and Light Enhancing Physics Knowledge for Teaching – Nuclei and Radioactivity Enhancing Physics Knowledge for Teaching – Quantum Physics Enhancing Physics Knowledge for Teaching – Heat Enhancing Physics Knowledge for Teaching – Thermodynamics Enhancing Physics Knowledge for Teaching – Properties of matter Enhancing Physics Knowledge for Teaching – Transport properties Enhancing Physics Knowledge for Teaching – Relativity Enhancing Physics Knowledge for Teaching – Astrophysics
This is a powerpoint presentation for an oral presentations workshop for engineering students. The resource accompanies a text document and is part of a workshop programme on 'Key Skills for Engineering Undergraduates'.
This open educational resource was released through the Higher Education Academy Engineering Subject Centre Open Engineering Resources Pilot project. The project was funded by HEFCE and the JISC/HE Academy UKOER programme.
This is a handout for an oral presentations workshop for engineering students. The resource accompanies a powerpoint and is part of a workshop programme on 'Key Skills for Engineering Undergraduates'.
This open educational resource was released through the Higher Education Academy Engineering Subject Centre Open Engineering Resources Pilot project. The project was funded by HEFCE and the JISC/HE Academy UKOER programme.
In this section we’ll extend this to motion in more than one dimension, for example the motion of bodies orbiting under gravity. And we’ll also look at how we can treat the motion of an extended body.
In this session we will be introducing electric currents. We will consider how an electric current behaves in DC and AC circuits, and how these circuits are described with circuit components like resistors, capacitors and inductors.
In this session we’re going to look at how electricity and magnetism can be unified into a system of equations, named after James Clerk Maxwell, the Scottish physicist who first proposed them. Then we’ll see how this leads to an understanding of the nature of electromagnetic radiation.
This section is concerned with Optics; we shall be interested in the behaviour of visible light as it interacts with plane and curved surfaces.
In this session we shall basically be interested in the way visible light exhibits wavelike properties. These properties include the interference of light waves and the diffraction of light round obstacles.
In this session we shall look at how light interacts with atoms. This will enable us to determine the internal structure of atoms and also the quantum behaviour of light.
In this session we will look at the nuclei of atoms to explain phenomenon including radioactivity.
In this session we will look at the ideas present in quantum physics.
In this session we’ll begin our study of thermodynamics by looking at some of the properties of heat.
In this session we’ll look at the basic laws and concepts of thermodynamics.
In this session we’ll look at some of the properties of matter.
In this session we’ll look at transport properties in fluids. By transport properties we mean the flows that restore a system to equilibrium, so for example, the flow of heat to eliminate a temperature gradient.
In this section we’ll look at both the special and general theories of relativity.
In this session in this session four of the team from the Physics Innovations Centre for Excellence in Teaching and Learning at Leicester will write about one of their areas of interest.
