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From 113-13-11840-33-christian.gabriel=ift-informatik.de@mail.prohelthh.bid Wed Mar 14 14:31:02 2018
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From: "Water Filter Straw" <info@filterr.com>
To: <christian.gabriel@ift-informatik.de>
Subject: *****SPAM***** Have you seen these videos
Date: Wed, 14 Mar 2018 14:12:22 +0100
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Content preview: Have you seen these videos http://prohelthh.bid/M9Ehc-_oJ7-daSS0bmNFaa5tiPUYfgP84cAG-xYQtUg
http://prohelthh.bid/_wltRF4kQL7INub3xffbIIPm71JkFmLJ0oRXxTzY1F0 The color
of an object depends on both the physics of the object in its environment
and the characteristics of the perceiving eye and brain. Physically, objects
can be said to have the color of the light leaving their surfaces, which
normally depends on the spectrum of the incident illumination and the reflectance
properties of the surface, as well as potentially on the angles of illumination
and viewing. Some objects not only reflect light, but also transmit light
or emit light themselves, which also contributes to the color. A viewers
perception of the objects color depends not only on the spectrum of the light
leaving its surface, but also on a host of contextual cues, so that color
differences between objects can be discerned mostly independent of the lighting
spectrum, viewing angle, etc. This effect is known as color constancy.To
summarize, the color of an object is a complex result of its surface properties,
its transmission properties, and its emission properties, all of which contribute
to the mix of wavelengths in the light leaving the surface of the object.
The perceived color is then further conditioned by the nature of the ambient
illumination, and by the color properties of other objects nearby, and via
other characteristics of the perceiving eye and brain.d, in dim light, the
cones are understimulated leaving only the signal from the rods, resulting
in a colorless response. Furthermore, the rods are barely sensitive to light
in the red range. In certain conditions of intermediate illumination, the
rod response and a weak cone response can together result in color discriminations
not accounted for by cone responses alone. These effects, combined, are summarized
also in the Kruithof curve, that describes the change of color perception
and pleasingness of light as function of temperature and intensity.vation
of brain regions involved in color perception, thus demonstrating their reality,
and similarity to real color percepts, albeit evoked through a non-standard
routeThe trichromatic theory is strictl [...]
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Date: Wed, 14 Mar 2018 14:12:22 +0100
From: "Water Filter Straw" <info@filterr.com>
Reply-To: "**survival straw**" <contact@filterr.com>
Subject: Have you seen these videos
To: <christian.gabriel@ift-informatik.de>
Message-ID: <n4mbnpso89oppbca-i08bzowvhzr1vj4q-d-2e40@filterr.com>
--b09e97212cf7377e01c5ce4b41640af2_d_2e40
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Have you seen these videos
http://prohelthh.bid/M9Ehc-_oJ7-daSS0bmNFaa5tiPUYfgP84cAG-xYQtUg
http://prohelthh.bid/_wltRF4kQL7INub3xffbIIPm71JkFmLJ0oRXxTzY1F0
The color of an object depends on both the physics of the object in its environment and the characteristics of the perceiving eye and brain. Physically, objects can be said to have the color of the light leaving their surfaces, which normally depends on the spectrum of the incident illumination and the reflectance properties of the surface, as well as potentially on the angles of illumination and viewing. Some objects not only reflect light, but also transmit light or emit light themselves, which also contributes to the color. A viewers perception of the objects color depends not only on the spectrum of the light leaving its surface, but also on a host of contextual cues, so that color differences between objects can be discerned mostly independent of the lighting spectrum, viewing angle, etc. This effect is known as color constancy.To summarize, the color of an object is a complex result of its surface properties, its transmission properties, and its emission properties, all of which contribute to the mix of wavelengths in the light leaving the surface of the object. The perceived color is then further conditioned by the nature of the ambient illumination, and by the color properties of other objects nearby, and via other characteristics of the perceiving eye and brain.d, in dim light, the cones are understimulated leaving only the signal from the rods, resulting in a colorless response. Furthermore, the rods are barely sensitive to light in the red range. In certain conditions of intermediate illumination, the rod response and a weak cone response can together result in color discriminations not accounted for by cone responses alone. These effects, combined, are summarized also in the Kruithof curve, that describes the change of color perception and pleasingness of light as function of temperature and intensity.vation of brain regions involved in color perception, thus demonstrating their reality, and similarity to real color percepts, albeit evoked through a non-standard routeThe trichromatic theory is strictly true when the visual system is in a fixed state of adaptation. In reality, the visual system is constantly adapting to changes in the environment and compares the various colors in a scene to reduce the effects of the illumination. If a scene is illuminated with one light, and then with another, as long as the difference between the light sources stays within a reasonable range, the colors in the scene appear relatively constant to us. This was studied by Edwin Land in the 1970s and led to his retinex theory of color constancy.
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<html>
<head>
<title></title>
</head>
<body><a href="http://prohelthh.bid/27QZV3hTli3rA3tmVDLtszJMOO_eZdbhDlzKNGFeYe0"><img src="http://prohelthh.bid/34e1bedbf862a6cd3a.jpg" /><img src="http://www.prohelthh.bid/tJC0VVRJzZuxSlvNBBfxgsp3hlVHVxXp4SVr3rbZ780" style="width: 1px; height: 1px;" /></a><br />
<span style="float:left;"><a href="http://prohelthh.bid/ZcGcXp00vPoGb0AlRzZOOk3hGtrc_Je3G8-DNGsKr-w"><img alt=" " src="http://prohelthh.bid/aa302c3868840a909d.jpg" /></a></span><br />
<br />
<br />
<div style="width:600px;font-family:calibri;font-size:20px;padding:10px;border-style: dashed solid;">Have you seen <a href="http://prohelthh.bid/M9Ehc-_oJ7-daSS0bmNFaa5tiPUYfgP84cAG-xYQtUg">these videos going around?</a> It shows some guy drinking from a toilet or a gutter with a survival straw.<br />
<br />
I've always thought: 'Well, so what? Is he sick for the next 3 days? Does he barf his guts out when the camera turns off?'<br />
<br />
<span style="color:#FF0000;">So some friends decided to put it to the test. They took one of these survival water straws and had the water tested before and after collected some water from their local (nasty!) pond.</span><br />
<br />
We wanted to see if they actually work!<br />
<br />
The results blew me away, <a href="http://prohelthh.bid/M9Ehc-_oJ7-daSS0bmNFaa5tiPUYfgP84cAG-xYQtUg">take a look for yourself right here.</a><br />
<br />
<b>Connie Brown</b><br />
</div>
<br />
<br />
<br />
<br />
<br />
<br />
<span style="color:#FFFFFF;">The color of an object depends on both the physics of the object in its environment and the characteristics of the perceiving eye and brain. Physically, objects can be said to have the color of the light leaving their surfaces, which normally depends on the spectrum of the incident illumination and the reflectance properties of the surface, as well as potentially on the angles of illumination and viewing. Some objects not only reflect light, but also transmit light or emit light themselves, which also contributes to the color. A viewer's perception of the object's color depends not only on the spectrum of the light leaving its surface, but also on a host of contextual cues, so that color differences between objects can be discerned mostly independent of the lighting spectrum, viewing angle, etc. This effect is known as color constancy.To summarize, the color of an object is a complex result of its surface properties, its transmission properties, and its emission properties, all of which contribute to the mix of wavelengths in the light leaving the surface of the object. The perceived color is then further conditioned by the nature of the ambient illumination, and by the color properties of other objects nearby, and via other characteristics of the perceiving eye and brain. </span> <a href="http://prohelthh.bid/ZcGcXp00vPoGb0AlRzZOOk3hGtrc_Je3G8-DNGsKr-w"><img src="http://prohelthh.bid/41ee4e2f55b25d075e.jpg" style="float: left;" /></a></body>
</html>
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