Technology

Video Games Depict Religion as Violent, Problematized, MU Study Shows

COLUMBIA, Mo. ­— In the past few years, the video game industry has grown from a niche market into a major part of mainstream media. This increase in popularity and use of technology has allowed video game developers to insert more detail and nuance into the storylines of their games. Many video games have begun incorporating religion as a key aspect to plot points and story lines. Greg Perreault, a doctoral student in the University of Missouri School of Journalism, found that the many newer-generation video games equate religion with violence in the game narratives. (more…)

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Molecular Duo Dictate Weight and Energy Levels, Yale Researchers Find

Yale University researchers have discovered a key cellular mechanism that may help the brain control how much we eat, what we weigh, and how much energy we have.

The findings, published in the Feb. 28 issue of the Journal of Neuroscience, describe the regulation of a family of cells that project throughout the nervous system and originate in an area of the brain call the hypothalamus, which has been long known to control energy balances. (more…)

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Hyperactivity in Brain May Explain Multiple Symptoms of Depression

*Electrical signals can’t shut off, suggest UCLA researchers*

Most of us know what it means when it’s said that someone is depressed. But commonly, true clinical depression brings with it a number of other symptoms. These can include anxiety, poor attention and concentration, memory issues, and sleep disturbances.

Traditionally, depression researchers have sought to identify the individual brain areas responsible for causing these symptoms. But the combination of so many symptoms suggested to UCLA researchers that the multiple symptoms of depression may be linked to a malfunction involving brain networks — the connections that link different brain regions.   (more…)

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IBM Research Nanophysics Breakthrough Captures First-Ever Image of Charge Distribution in a Single Molecule

— Scientists use special kind of atomic force microscopy at low temperatures and in ultrahigh vacuum to image the charge distribution within a single molecule
— The new technique will further the understanding of nanoscale physics and could help develop future applications such as solar photoconversion, energy storage, or molecular scale computing devices

ZURICH – 27 Feb 2012: IBM scientists were able to measure for the first time how charge is distributed within a single molecule. This breakthrough will enable fundamental scientific insights into single-molecule switching and bond formation between atoms and molecules. The ability to image the charge distribution within functional molecular structures holds great promise for future applications such as solar photoconversion, energy storage, or molecular scale computing devices. (more…)

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