Methods and apparatus for making a determination about an eye using color temperature adjusted lighting

What is claimed: 1. A method comprising: determining, using a computing device, a color temperature of lighting; detecting, using the computing device, reflected light out of an eye of a subject from a retina of the eye of the subject, wherein said detecting comprises: sensing, using a sensor, at least a portion of the eye of the subject, wherein non-relevant reflections from the eye of the subject are managed while sensing the portion of the eye, and wherein the sensed portion of the eye comprises at least a portion of a pupil of the eye of the subject; determining, using the computing device, an overall intensity of light from the reflected light from the sensed portion of the pupil of the eye of the subject, wherein the overall intensity of light is adjusted by the computing device based on the determined color temperature of the lighting; determining, using the computing device, a first intensity of a first color from the reflected light from the sensed portion of the pupil of the eye of the subject, wherein the first intensity of the first color is adjusted by the computing device based on the determined color temperature of the lighting; determining, using the computing device, a second intensity of a second color from the reflected light from the sensed portion of the pupil of the eye of the subject, wherein the second intensity of the second color is adjusted by the computing device based on the determined color temperature of the lighting; comparing, by the computing device, a relative intensity of the first color and a relative intensity of the second color; and making a determination about the eye of the subject based upon the reflected light, wherein said comparison and said overall intensity are used to make the determination about the eye of the subject based upon the reflected light. 2. The method of claim 1 , wherein sensing, using the sensor, the portion of the eye of the subject comprises capturing, using an image capture device, an image of the eye of the subject, wherein non-relevant reflections from the eye of the subject are managed while capturing the image, and wherein the captured image of the eye comprises the portion of a pupil of the eye of the subject; wherein the overall intensity of light is determined from a plurality of pixels located within the portion of the pupil of the eye of the subject captured in the image, wherein the overall intensity of light is adjusted by the computing device based on the determined color temperature of the lighting; wherein the first intensity of the first color is determined from the plurality of pixels located within the portion of the pupil of the eye of the subject captured in the image, wherein the first intensity of the first color is adjusted by the computing device based on the determined color temperature of the lighting; and wherein the second intensity of the second color is determined from the plurality of pixels located within the portion of the pupil of the eye of the subject captured in the image, wherein the second intensity of the second color is adjusted by the computing device based on the determined color temperature of the lighting. 3. The method of claim 1 , wherein the first color comprises any one or any combination of red, green, and blue and the second color comprises any one or any combination of red, green, and blue. 4. The method of claim 1 , wherein sensing, using the sensor, the portion of the eye of the subject comprises sensing at a first time through a spectacle lens or a contact lens while the subject is wearing the spectacle lens or the contact lens over the eye and sensing at a second time while the subject is not wearing the spectacle lens or the contact lens over the eye and the first sensing information is compared to the second sensing information and the determination about the eye of the subject based upon the reflected light is based on the comparison and comprises an estimated prescription for the spectacle lens or the contact lens. 5. The method of claim 1 , wherein the first intensity of the first color is brighter relative to the second intensity of the second color and the overall intensity is relatively brighter in luminescence than a myopic eye, and the determination about the eye of the subject based upon the reflected light comprises a positive value or hyperopia. 6. The method of claim 1 , wherein the first intensity of the first color is dimmer relative to the second intensity of the second color and the overall intensity is relatively dimmer in luminescence than a myopic eye, and the determination about the eye of the subject based upon the reflected light comprises a negative value or myopia. 7. The method of claim 1 , wherein the method further comprises: making a first determination about the eye of the subject based upon the reflected light from a first portion of the sensed pupil of the eye; making a second determination from a second portion of the sensed pupil of the eye of the subject, wherein the second portion of the sensed pupil is a subset of the first portion of the sensed pupil of the eye; making a third determination from a third portion of the sensed pupil of the eye of the subject, wherein the third portion of the pupil is a subset of the first portion of the sensed pupil of the eye and is separate from the second sensed portion of the eye; comparing the first determination, the second determination and the third determination to make the determination about the eye of the subject based upon the reflected light. 8. The method of claim 7 , wherein comparing the first determination, the second determination and the third determination to make the determination about the eye of the subject based upon the reflected light comprises one or more of determining a standard deviation of the first determination to the second determination, a standard deviation of the first determination to the third determination, or a standard deviation of the second determination to the third determination, wherein the determined standard deviation indicates the determination about the eye of the subject based upon the reflected light. 9. The method of claim 7 , wherein the determination about the eye of the subject based upon the reflected light is a presence or an absence of astigmatism. 10. The method of claim 9 , wherein the presence of astigmatism is detected and an amount of astigmatism is determined by comparing the overall intensity and the relative intensity of the first color or the relative intensity of the second color of various regions of the pupil. 11. The method of claim 1 , wherein managing non-relevant reflections from the eye while capturing the image comprises managing reflections from a cornea or a lens of the eye of the subject while sensing the eye. 12. The method of claim 1 , wherein managing non-relevant reflections from the eye while sensing the eye comprises placing a polarizing filter over a lens of the sensor or between the sensor and the eye of the subject, or wherein managing non-relevant reflections from the eye while sensing the eye comprises blocking light that would lead to reflections from a corneal surface of the eye or a lens of the eye, or wherein managing non-relevant reflections from the eye while sensing the eye comprises providing a surface that absorbs light or prevents the non-relevant reflections from the eye while sensing the eye. 13. The method of claim 1 , wherein the subject's pupil has a diameter of approximately 2 mm or less. 14. The method of claim 1 , wherein the subject's pupil is a natural pupil or the subject's pupil is an artificial pupil. 15. The m