PhilGeek · August 17, 2012 19:19
diff --git a/gistfile1.tex b/gistfile1.tex
 The primary object of sight is the visible. What is visible is
 either color or ``a certain kind of object which can be described
 in words but which has no single name'' (\emph{De Anima} \textsc{ii}.7
 418\( ^{b} \)4). So color is \emph{a} primary object of sight not
 \emph{the} primary object of sight. That a sense can have a plurality
 of primary objects is consistent with Aristotle's two defining
 conditions on being a primary object---that it be perceptible to
 one sense alone and about whose presence no error is possible.
 Distinct kinds of objects can each satisfy these conditions. So it
 does not follow from Aristotle's definition of primary objects that
 for each sense there is exactly one primary object. If there is a
 problem, especially if, as in the case of touch, there are too many
 primary objects, this must be due not soley to the definition of
 primary object but must involve as well further explanatory
 assumptions.

 Colors depend upon light for their visibility. But not everything
 that is visible depends upon light for their visibility. That which
 has no common name does not depend upon light for their visibility:
 \begin{quote}
 	Some objects of sight which in light are invisible, in
 	darkness stimulate the sense; that is, things that appear
 	fiery or shining. This class of objects has no simple common
 	name, but instances of it are fungi, horns, heads, scales,
 	and eyes of fish. In none of these is what is seen their
 	own proper colour. Why we see these at all is another
 	question. (\emph{De Anima} \textsc{ii}.7 419\( ^{a} \)xx--xx)
 \end{quote} Philoponus, in his commentary on \emph{De Anima}, reports
 a slightly different list of examples: \begin{quote}
 	\ldots\ glow worms, heads of fish, fish scales, eyes of
 	hedgehogs, shells of sea-creatures, which things are seen
 	not in light but in dark. (\emph{On \emph{De Anima}} 319
 	25--27; \citealt[3]{Charlton:2005fk})
 \end{quote} That which has no common name possess qualities visible
 in the dark and not the light and differ from the proper colors of
 these same things which are visible in the light and not the dark.
 This is most likely the source of Austin's example from \emph{Sense
 and Sensibilia} (an appropriately Aristotelian title, at least in
 the present context): \begin{quote}
 	Suppose \ldots\ that there is a species of fish which looks
 	vividly multi-coloured, slightly glowing perhaps, at a depth
 	of a thousand feet. I ask you what its real colour is. So
 	you catch a specimen and lay it out on deck, making sure
 	the condution of the light is just about normal, and you
 	find that it looks a muddy sort of greyish white. Well, is
 	\emph{that} its real colour? \citep[lecture \textsc{vii},
 	65--66]{Austin:1962lr}
 \end{quote} In the darkness, at the depth of a thousand feet, the
 fish may look vividly multi-colored and slightly glowing, but on
 the sun drenched deck they look a muddy sort of greyish white.
 Aristotle would contend that only the latter is the creature's
 proper color. Austin is, of course, making a different point with
 the Aristotelian example, that the `real' color of a thing may
 depend on the practical point of attributing color to it in the
 circumstances of saying.

 There is a question about how broadly the domain of that which has
 no common name extends. Some commentators have suggested that shining
 be interepreted as reflective highlights. So fish scales, having a
 highly reflective surface, can produce highlights discernable even
 in conditions of very low illumination resulting in a shimmering
 effect amidst the surrounding darkness. The trouble with this
 interpretation is that it does not fit all of Aristotle's
 examples---fungii lack smooth, reflective surfaces and so give rise
 to no reflective highlights. One plausible thought, supported by
 Philoponus' additional example of glow worms, and exploited by
 Austin in his appropriation, is that these are examples of
 bioluminescence. One minor problem with this interpretation is that
 the eyes of hedgehogs (assuming, for the moment, that Philoponus'
 example is of genuine Aristotelian province), glowing in a dark
 field, are not radiant light sources the way that they appear to
 be and the way that cases of  bioluminesecence genuinely are. Rather,
 they are reflecting ambient light in circumstances of low illumination,
 from a lantern of shaved horn, say, held by an anceint perceiver
 traversing the field at night. All of Aristotle's examples are
 biological, but the claim that that which has no common name is
 visible in the absence of light suggests a generalization. After
 all, there are mineral deposits whose glow can only be seen in the
 absence of competing illumination. So perhaps that which has no
 common name includes not only the bioluminescent, but the luminous
 more generally. Philoponus suggests this broader interpretation and
 provides the nice example of starlight, visible only in the absence
 of the sun's light (\emph{On \emph{De Anima}} 347 11).
	The primary object of sight is the visible. What is visible is
	either color or ``a certain kind of object which can be described
	in words but which has no single name'' (\emph{De Anima} \textsc{ii}.7
	418\( ^{b} \)4). So color is \emph{a} primary object of sight not
	\emph{the} primary object of sight. That a sense can have a plurality
	of primary objects is consistent with Aristotle's two defining
	conditions on being a primary object---that it be perceptible to
	one sense alone and about whose presence no error is possible.
	Distinct kinds of objects can each satisfy these conditions. So it
	does not follow from Aristotle's definition of primary objects that
	for each sense there is exactly one primary object. If there is a
	problem, especially if, as in the case of touch, there are too many
	primary objects, this must be due not soley to the definition of
	primary object but must involve as well further explanatory
	assumptions.

	Colors depend upon light for their visibility. But not everything
	that is visible depends upon light for their visibility. That which
	has no common name does not depend upon light for their visibility:
	\begin{quote}
	Some objects of sight which in light are invisible, in
	darkness stimulate the sense; that is, things that appear
	fiery or shining. This class of objects has no simple common
	name, but instances of it are fungi, horns, heads, scales,
	and eyes of fish. In none of these is what is seen their
	own proper colour. Why we see these at all is another
	question. (\emph{De Anima} \textsc{ii}.7 419\( ^{a} \)xx--xx)
	\end{quote} Philoponus, in his commentary on \emph{De Anima}, reports
	a slightly different list of examples: \begin{quote}
	\ldots\ glow worms, heads of fish, fish scales, eyes of
	hedgehogs, shells of sea-creatures, which things are seen
	not in light but in dark. (\emph{On \emph{De Anima}} 319
	25--27; \citealt[3]{Charlton:2005fk})
	\end{quote} That which has no common name possess qualities visible
	in the dark and not the light and differ from the proper colors of
	these same things which are visible in the light and not the dark.
	This is most likely the source of Austin's example from \emph{Sense
	and Sensibilia} (an appropriately Aristotelian title, at least in
	the present context): \begin{quote}
	Suppose \ldots\ that there is a species of fish which looks
	vividly multi-coloured, slightly glowing perhaps, at a depth
	of a thousand feet. I ask you what its real colour is. So
	you catch a specimen and lay it out on deck, making sure
	the condution of the light is just about normal, and you
	find that it looks a muddy sort of greyish white. Well, is
	\emph{that} its real colour? \citep[lecture \textsc{vii},
	65--66]{Austin:1962lr}
	\end{quote} In the darkness, at the depth of a thousand feet, the
	fish may look vividly multi-colored and slightly glowing, but on
	the sun drenched deck they look a muddy sort of greyish white.
	Aristotle would contend that only the latter is the creature's
	proper color. Austin is, of course, making a different point with
	the Aristotelian example, that the `real' color of a thing may
	depend on the practical point of attributing color to it in the
	circumstances of saying.

	There is a question about how broadly the domain of that which has
	no common name extends. Some commentators have suggested that shining
	be interepreted as reflective highlights. So fish scales, having a
	highly reflective surface, can produce highlights discernable even
	in conditions of very low illumination resulting in a shimmering
	effect amidst the surrounding darkness. The trouble with this
	interpretation is that it does not fit all of Aristotle's
	examples---fungii lack smooth, reflective surfaces and so give rise
	to no reflective highlights. One plausible thought, supported by
	Philoponus' additional example of glow worms, and exploited by
	Austin in his appropriation, is that these are examples of
	bioluminescence. One minor problem with this interpretation is that
	the eyes of hedgehogs (assuming, for the moment, that Philoponus'
	example is of genuine Aristotelian province), glowing in a dark
	field, are not radiant light sources the way that they appear to
	be and the way that cases of bioluminesecence genuinely are. Rather,
	they are reflecting ambient light in circumstances of low illumination,
	from a lantern of shaved horn, say, held by an anceint perceiver
	traversing the field at night. All of Aristotle's examples are
	biological, but the claim that that which has no common name is
	visible in the absence of light suggests a generalization. After
	all, there are mineral deposits whose glow can only be seen in the
	absence of competing illumination. So perhaps that which has no
	common name includes not only the bioluminescent, but the luminous
	more generally. Philoponus suggests this broader interpretation and
	provides the nice example of starlight, visible only in the absence
	of the sun's light (\emph{On \emph{De Anima}} 347 11).