1,699,039 research outputs found
Energy balance and cancers
Energy balance results from the exact equilibrium between caloric intake and caloric expenditure. A caloric intake larger than caloric expenditure results in overweight, even obesity, but other determinants, like hormonal dysfunction and/or genetic traits may play a part in obesity syndrome. Obesity, and even overweight, have been recognized as risk factors for the development of cancers. Human epidemiological studies, which have tended to establish the nature of the relationship between energy balance and cancer, are summarized first, with the influence of the various factors which act both on obesity and on cancer risk. Among these factors are the macronutrients responsible for the caloric intake, and some lifestyle factors (physical activity, drinking habits and tobacco use). Second, the animal studies help to distinguish between different relevant factors, and to understand some of the underlying mechanisms. However, the insulin-resistance syndrome, which appears to underlie the relationship between obesity and hormone-dependent cancers, and possibly colon cancer, is only relevant to human physiology because hormonal alterations are part of it. Prevention of hyperinsulinemia, insulin resistance and the accompanying visceral obesity appears to be a major public health task for the prevention of cancers
Energy-balance in stream-flows carrying suspended load
Problem.-— The mechanism by which a flowing fluid transports solid material in suspension has received a great deal of thought. Many avenues of approach have been explored in attempts to gain more insight into the phenomenon. One of these which has been employed with the object of establishing the basic criteria of transportation in suspension has been the study of the energy-balance of the flow. The Transactions of the American Geophysical Union contain important discussions that fall in this category. In 1933, W. W. Rubey [Trans, 1933, p. 497] presented a paper on “Equilibrium-conditions in debris-laden streams” to the Section of Hydrology. This article proposes a general expression of stream-equilibrium in the form of an energy-equation. In this equation the loss in potential-energy of the flowing mixture plus the decrease in kinetic energy of flow is equated to the energy consumed in friction plus the energy consumed in supporting the debris. One of the significant conclusions reached by Rubey on the basis of this analysis, together with pertinent field-data, is that the energy consumed in supporting the debris is normally a very small fraction of the total energy in the flow
Energy-balance climate models
An introductory survey of the global energy balance climate models is presented with an emphasis on analytical results. A sequence of increasingly complicated models involving ice cap and radiative feedback processes are solved and the solutions and parameter sensitivities are studied. The model parameterizations are examined critically in light of many current uncertainties. A simple seasonal model is used to study the effects of changes in orbital elements on the temperature field. A linear stability theorem and a complete nonlinear stability analysis for the models are developed. Analytical solutions are also obtained for the linearized models driven by stochastic forcing elements. In this context the relation between natural fluctuation statistics and climate sensitivity is stressed
Parton Energy Loss with Detailed Balance
Stimulated gluon emission and thermal absorption in addition to induced
radiation are considered for an energetic parton propagating inside a quark-
gluon plasma. In the presence of thermal gluons, stimulated emission reduces
while absorption increases the parton's energy. The net effect is a reduction
of the parton energy loss. Though decreasing asymptotically as with the
parton energy, the relative reduction is found to be important for intermediate
energies. The modified energy dependence of the energy loss will affect the
shape of suppression of moderately high hadrons due to jet quenching in
high-energy heavy-ion collisions.Comment: 4 pages in RevTex with 1 postscript figure. Some typos are corrected
and new comments are adde
The global energy balance of Titan
The global energy budget of planets and their moons is a critical factor to influence the climate change on these objects. Here we report the first measurement of the global emitted power of Titan. Long-term (2004–2010) observations conducted by the Composite Infrared Spectrometer (CIRS) onboard Cassini reveal that the total emitted power by Titan is (2.84 ± 0.01) × 10^(14) watts. Together with previous measurements of the global absorbed solar power of Titan, the CIRS measurements indicate that the global energy budget of Titan is in equilibrium within measurement error. The uncertainty in the absorbed solar energy places an upper limit on the energy imbalance of 6.0%
Energy-momentum balance in quantum dielectrics
We calculate the energy-momentum balance in quantum dielectrics such as
Bose-Einstein condensates. In agreement with the experiment [G. K. Campbell et
al. Phys. Rev. Lett. 94, 170403 (2005)] variations of the Minkowski momentum
are imprinted onto the phase, whereas the Abraham tensor drives the flow of the
dielectric. Our analysis indicates that the Abraham-Minkowski controversy has
its root in the Roentgen interaction of the electromagnetic field in dielectric
media
Mechanisms of Energy Balance in Obesity
The proper understanding of obesity requires a multifaceted approach. Behavioral considerations of eating and activity patterns do not account for the large between- and within-subjects variance associated with the energy-balance equation. Sources of adaptive and dispositional variance in metabolic rates are reviewed and suggested to be a likely source of importance for the proper conceptualization and intervention of obesity. Five proposed mechanisms of metabolic variation are reviewed with consideration of the supporting evidence for each mechanism. The generalizability of some of the proposed mechanisms is limited because of the scope of past research. However, the roles of lipoprotein lipase in fat storage and brown adipose tissue in thermogenesis are intriguing possibilities for future research with humans
Nuclear Dynamics at the Balance Energy
We study the mass dependence of various quantities (like the average and
maximum density, collision rate, participant-spectator matter, temperature as
well as time zones for higher density) by simulating the reactions at the
energy of vanishing flow. This study is carried out within the framework of
Quantum Molecular Dynamics model. Our findings clearly indicate an existence of
a power law in all the above quantities calculated at the balance energy. The
only significant mass dependence was obtained for the temperature reached in
the central sphere. All other quantities are rather either insensitive or
depend weakly on the system size at balance energy. The time zone for higher
density as well as the time of maximal density and collision rate follow a
power law inverse to the energy of vanishing flow.Comment: 9 figures, Submitted to Phys. Rev.
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