1.3 Framing nature matters as systems
This unit explores conceptual tools for assisting our thinking and deliberation on what matters. The notion of ‘framing’ nature is introduced and three readings provide an understanding of systems thinking for explicitly framing issues of environmental responsibility.
2.3 Citizens in conversation with nature and experts
This unit explores conceptual tools for assisting our thinking and deliberation on what matters. The notion of ‘framing’ nature is introduced and three readings provide an understanding of systems thinking for explicitly framing issues of environmental responsibility.
2.2 Environmental pragmatism: positioning expert support
This unit explores conceptual tools for assisting our thinking and deliberation on what matters. The notion of ‘framing’ nature is introduced and three readings provide an understanding of systems thinking for explicitly framing issues of environmental responsibility.
Learning outcomes
This unit explores conceptual tools for assisting our thinking and deliberation on what matters. The notion of ‘framing’ nature is introduced and three readings provide an understanding of systems thinking for explicitly framing issues of environmental responsibility.
Introduction
This unit explores conceptual tools for assisting our thinking and deliberation on what matters. The notion of ‘framing’ nature is introduced and three readings provide an understanding of systems thinking for explicitly framing issues of environmental responsibility.
A World View of Global Warming: Witnessing Climate Change and Science
A World View of Global Warming: Witnessing Climate Change and Science
Introduction This unit will facilitate your own exploration of key environmental, social and economic threats that will converge to challenge communities in the near future. You will be required to develop this exploration according to three modes of modelling and Author(s):
Global Initiative
Dean Chodosh talks about the College of Law's Global Initiative in this short PR piece.
Introduction
Energy from sources other than fossil and nuclear fuels is to a large extent free of the concerns about environmental effects and renewability that characterise those two sources. Each alternative source supplies energy continually, whether or not we use it. This unit considers one of these alternative sources, geothermal energy derived from the interior heat of the Earth, and the potential for this alternative to supplant fossil and nuclear fuel use to power social needs fast enough to avoid t
The Next Giant Leaps in Energy, Environment, & Air Transportation
It’s no exaggeration to say John Holdren’s job involves tackling the most critical issues of our age: economic recovery and growth, health care, energy, climate change, global pandemics, national security, ecosystem preservation…the list goes on. As President Obama’s science and technology advisor, Holdren lev
Introduction
The energy carried by ocean waves derives from a proportion of the wind energy transferred to the ocean surface by frictional drag. So, ultimately it stems from the proportion of incoming solar energy that drives air movement. Just how much energy is carried by a single wave depends on the wind speed and the area of ocean surface that it crosses; wave height, wavelength, and therefore wave energy, are functions of the distance or fetch over which the wind blows.
This unit considers the power
1.4.4 Covalent cross-linkages stabilise protein structure
In this unit we explore how proteins are the 'doers' of the cell. They are huge in number and variety and diverse in structure and function, serving both the structural building blocks and the functional machinery of the cell. Just about every process in every cell requires specific proteins. The basic principles of protein structure and function which are reviewed in this unit are crucial to understanding how proteins perform their various roles.
1.4.3 Protein domains
In this unit we explore how proteins are the 'doers' of the cell. They are huge in number and variety and diverse in structure and function, serving both the structural building blocks and the functional machinery of the cell. Just about every process in every cell requires specific proteins. The basic principles of protein structure and function which are reviewed in this unit are crucial to understanding how proteins perform their various roles.
1.4.2 Protein fold
In this unit we explore how proteins are the 'doers' of the cell. They are huge in number and variety and diverse in structure and function, serving both the structural building blocks and the functional machinery of the cell. Just about every process in every cell requires specific proteins. The basic principles of protein structure and function which are reviewed in this unit are crucial to understanding how proteins perform their various roles.
1.4.1 Motifs and supersecondary structures
In this unit we explore how proteins are the 'doers' of the cell. They are huge in number and variety and diverse in structure and function, serving both the structural building blocks and the functional machinery of the cell. Just about every process in every cell requires specific proteins. The basic principles of protein structure and function which are reviewed in this unit are crucial to understanding how proteins perform their various roles.
1.3.4 Coil conformations
In this unit we explore how proteins are the 'doers' of the cell. They are huge in number and variety and diverse in structure and function, serving both the structural building blocks and the functional machinery of the cell. Just about every process in every cell requires specific proteins. The basic principles of protein structure and function which are reviewed in this unit are crucial to understanding how proteins perform their various roles.
1.3.3 Reverse turns and loops
In this unit we explore how proteins are the 'doers' of the cell. They are huge in number and variety and diverse in structure and function, serving both the structural building blocks and the functional machinery of the cell. Just about every process in every cell requires specific proteins. The basic principles of protein structure and function which are reviewed in this unit are crucial to understanding how proteins perform their various roles.
1.3.2 β pleated sheets
In this unit we explore how proteins are the 'doers' of the cell. They are huge in number and variety and diverse in structure and function, serving both the structural building blocks and the functional machinery of the cell. Just about every process in every cell requires specific proteins. The basic principles of protein structure and function which are reviewed in this unit are crucial to understanding how proteins perform their various roles.
1.3.1 Helices
In this unit we explore how proteins are the 'doers' of the cell. They are huge in number and variety and diverse in structure and function, serving both the structural building blocks and the functional machinery of the cell. Just about every process in every cell requires specific proteins. The basic principles of protein structure and function which are reviewed in this unit are crucial to understanding how proteins perform their various roles.
Introduction
In this unit we explore how proteins are the 'doers' of the cell. They are huge in number and variety and diverse in structure and function, serving both the structural building blocks and the functional machinery of the cell. Just about every process in every cell requires specific proteins. The basic principles of protein structure and function which are reviewed in this unit are crucial to understanding how proteins perform their various roles.
