Results 211 to 220 of about 45,656 (264)
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1996
Energy taken in as food is apportioned in various ways. Some builds new tissue as growth or is deposited in energy storage products such as fat or glycogen. Some is used in production of young. Much of it Fuels metabolism and is expended in bodily maintenance. Finally, what is not assimilated is lost in the faeces.
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Energy taken in as food is apportioned in various ways. Some builds new tissue as growth or is deposited in energy storage products such as fat or glycogen. Some is used in production of young. Much of it Fuels metabolism and is expended in bodily maintenance. Finally, what is not assimilated is lost in the faeces.
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2013
To characterize the global atmosphere, globally averaged quantities of the whole atmosphere can be used. Corresponding to the governing equations of the atmosphere (i.e, the conservations of mass, momentum, and energy), we obtain the global budgets of conserved quantities: mass, angular momentum, and energy.
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To characterize the global atmosphere, globally averaged quantities of the whole atmosphere can be used. Corresponding to the governing equations of the atmosphere (i.e, the conservations of mass, momentum, and energy), we obtain the global budgets of conserved quantities: mass, angular momentum, and energy.
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Temperature and energy budgets
1989Temperature is of fundamental importance in affecting rates of metabolic activity in plant tissues. In this chapter, we will focus on methods for temperature measurement under field conditions and on the energy budget equation, which basically describes the influences of abiotic/biotic factors in affecting a deviation in plant tissue temperature from ...
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1994
The motion of the Earth’s atmosphere is driven by differential heating. The reservoir of the available potential energy, which describes the difference between the actual state of the atmosphere and a hypothetical atmosphere at rest, is estimated to be about 55 x 105 Jm−2 as a mean value around the globe.
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The motion of the Earth’s atmosphere is driven by differential heating. The reservoir of the available potential energy, which describes the difference between the actual state of the atmosphere and a hypothetical atmosphere at rest, is estimated to be about 55 x 105 Jm−2 as a mean value around the globe.
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1980
All parts of plants have temperatures determined by their environmental conditions. The energy status of a plant or a plant leaf is manifested by its temperature. The leaves and stems of plants have small masses and are generally of low heat capacity.
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All parts of plants have temperatures determined by their environmental conditions. The energy status of a plant or a plant leaf is manifested by its temperature. The leaves and stems of plants have small masses and are generally of low heat capacity.
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1980
Animals have evolved and adapted to live in all parts of the world. Lower forms of life, such as bacteria, are found in extreme high-temperatures habitats such as hot springs (Brock, 1967; Bott and Brock, 1969) and places of intense cold such as Antarctica (Cameron, 1971).
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Animals have evolved and adapted to live in all parts of the world. Lower forms of life, such as bacteria, are found in extreme high-temperatures habitats such as hot springs (Brock, 1967; Bott and Brock, 1969) and places of intense cold such as Antarctica (Cameron, 1971).
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Nanofluidics for osmotic energy conversion
Nature Reviews Materials, 2021, Liping Wen, Lei Jiang
exaly