1.4.4 Hibernation in mammals
In this unit, we study one aspect of the fluctuating nature of an organism's environment. We consider how organisms living in a temperate climate, such as that in Britain, are adapted to cope with winter. You will see that there is much diversity of adaptations among organisms, with different species coping with the demands of a fluctuating environment in quite different ways. As cyclic variations are a widespread feature of environments, the range of adaptations to them is an important source o
1.4.3 Freeze tolerance in ectothermic vertebrates
In this unit, we study one aspect of the fluctuating nature of an organism's environment. We consider how organisms living in a temperate climate, such as that in Britain, are adapted to cope with winter. You will see that there is much diversity of adaptations among organisms, with different species coping with the demands of a fluctuating environment in quite different ways. As cyclic variations are a widespread feature of environments, the range of adaptations to them is an important source o
Acknowledgements
We now live in a global village where distance in no longer a barrier to commercial or social contact. This unit will enable you to gain an understanding of the information and communication technologies that drive our networked world and how they now permeate our everyday lives.
1.3.3 Summary of Section 1.3
In this unit, we study one aspect of the fluctuating nature of an organism's environment. We consider how organisms living in a temperate climate, such as that in Britain, are adapted to cope with winter. You will see that there is much diversity of adaptations among organisms, with different species coping with the demands of a fluctuating environment in quite different ways. As cyclic variations are a widespread feature of environments, the range of adaptations to them is an important source o
1.3.2 Birds and mammals
In this unit, we study one aspect of the fluctuating nature of an organism's environment. We consider how organisms living in a temperate climate, such as that in Britain, are adapted to cope with winter. You will see that there is much diversity of adaptations among organisms, with different species coping with the demands of a fluctuating environment in quite different ways. As cyclic variations are a widespread feature of environments, the range of adaptations to them is an important source o
2.3 ICTs and you
We now live in a global village where distance in no longer a barrier to commercial or social contact. This unit will enable you to gain an understanding of the information and communication technologies that drive our networked world and how they now permeate our everyday lives.
1.2.5 Summary of Sections 1.1 and 1.2
In this unit, we study one aspect of the fluctuating nature of an organism's environment. We consider how organisms living in a temperate climate, such as that in Britain, are adapted to cope with winter. You will see that there is much diversity of adaptations among organisms, with different species coping with the demands of a fluctuating environment in quite different ways. As cyclic variations are a widespread feature of environments, the range of adaptations to them is an important source o
1.2.4 The evolutionary level
In this unit, we study one aspect of the fluctuating nature of an organism's environment. We consider how organisms living in a temperate climate, such as that in Britain, are adapted to cope with winter. You will see that there is much diversity of adaptations among organisms, with different species coping with the demands of a fluctuating environment in quite different ways. As cyclic variations are a widespread feature of environments, the range of adaptations to them is an important source o
2.1Networked devices you use every day
We now live in a global village where distance in no longer a barrier to commercial or social contact. This unit will enable you to gain an understanding of the information and communication technologies that drive our networked world and how they now permeate our everyday lives.
1.2.2 The cellular level
In this unit, we study one aspect of the fluctuating nature of an organism's environment. We consider how organisms living in a temperate climate, such as that in Britain, are adapted to cope with winter. You will see that there is much diversity of adaptations among organisms, with different species coping with the demands of a fluctuating environment in quite different ways. As cyclic variations are a widespread feature of environments, the range of adaptations to them is an important source o
1.2.1 The molecular level
In this unit, we study one aspect of the fluctuating nature of an organism's environment. We consider how organisms living in a temperate climate, such as that in Britain, are adapted to cope with winter. You will see that there is much diversity of adaptations among organisms, with different species coping with the demands of a fluctuating environment in quite different ways. As cyclic variations are a widespread feature of environments, the range of adaptations to them is an important source o
1.1Data and information
We now live in a global village where distance in no longer a barrier to commercial or social contact. This unit will enable you to gain an understanding of the information and communication technologies that drive our networked world and how they now permeate our everyday lives.
1.1 Living in a fluctuating environment
In this unit, we study one aspect of the fluctuating nature of an organism's environment. We consider how organisms living in a temperate climate, such as that in Britain, are adapted to cope with winter. You will see that there is much diversity of adaptations among organisms, with different species coping with the demands of a fluctuating environment in quite different ways. As cyclic variations are a widespread feature of environments, the range of adaptations to them is an important source o
6.3 Where is the complexity and what is it? When I reflect on my experiences of child-support, I attribute the properties of mess, complex, or hard-to-understand to the situation. So, are mess, complex, and hard-to-understand the same thing? If they are, why is the course called Managing Complexity, rather than, say, Managing Messes? A glib answer is you might not have been attracted to it because of the everyday meaning of mess. Yet another answer is that complexity is a rich term whose everyday meanings have been further enriched by
3. Sustainable Aviation: Future Air Transportation and the Environment (January 21, 2009)
science, technology, engineering, aviation, aeronautics, aircraft fuel efficiency, carbon dioxide, sustainability, Global Positioning System (GPS), economics, numerical optimization, climate change, friction, drag, airplane, aerodynamics, National Aerona
4. Applications
Technology, worldwide web, infrastructure, network, architecture, global, ownership, computer, science, neutrality, telecommunications, economics, policy, TCP/IP, internet protocol, innovation, HTML, BitTorrent, peer-to-peer, file sharing, streaming, vide
1. The Future of the Internet Course Introduction
Technology, worldwide web, infrastructure, network, architecture, global, ownership, computer, science, neutrality, telecommunications, economics, policy, packet, TCP/IP, history, content provider, delivery, exchange
2 Construction with lipids The cell membrane is constructed from lipids. Chemically, lipids are a rather varied group of compounds that include all the substances you might already think of as fats or oils. What they have in common is that they are all insoluble in polar liquids like water, but soluble in organic (carbon-based) solvents: by this I mean the sort of smelly solvents you tend to find in paints, glues and degreasing agents; chloroform is one example. Lipids make up the fatty components of living organisms a
1 Biological materials Materials engineers have long recognised the impressive range and combination of properties offered by biological materials. Figure 1 shows some representative examples of the combination of tensile strength and toughness (measured by Young's modulus, or elastic modulus for polymers) offered by natural materials, with some more common engineering materials included for comparison. I'm using the term ‘biological m
1 Technological change, demand and costs Over the past 40 years global computing power has increased a billionfold. Number-crunching tasks that once took a week can now be done in seconds. Today a Ford Taurus car contains more computing power than the multimillion-dollar mainframe computers used in the Apollo space programme. Cheaper processing allows computers to be used for more and more purposes. In 1985, it cost Ford
The new economy
