color. ANSWERED BY CODY P.
Color
COLOR...
The change is not visible to the human eye
The human eye can detect electromagnetic radiation in the visible region of the spectrum only. This region extends to the radiations of wavelength of 7600-3800 Angstrom
The human eye is a refractor, but the telescope could be either refractor or a reflector.
A typical human eye will respond to wavelengths from about 390 to 750 nanometers. (0.00039 to 0.00075 millimeter)
The red end of the spectrum. Red has lower frequency, lower energy and longer wavelength than the blue end of the spectrum.
will the human eye does not really see anything it just captures the light and the brain interprets it into recognizable images and corrects the position of the light ...
The main purpose of the human eye is to capture light. The eye captures the light from the surrounding and sends the data to the brain which interprets it.
Electromagnetic radiation having a wavelengths between 380 - 750nm is visible to the normal human eye. This region of the spectrum is called visible light. Radiation of any other wavelength cannot be seen with the naked eye
I looked it up in my physics text book and it says that the wavelength is too long to be seen by the human eye.
Yes, that's correct.
will the human eye does not really see anything it just captures the light and the brain interprets it into recognizable images and corrects the position of the light ...
I looked it up in my physics text book and it says that the wavelength is too long to be seen by the human eye.
light (electromagnetic radiation of a wavelength that is visible to the human eye (about 400–700 nm))
The human eye sees red when it looks at light with a wavelength between 630 and 700 nanometers.
Any light wave with a wavelength between roughly 350 to 750 nanometers.
Any that is shorter than about 400nm or longer than about 750nm isn't.
I looked it up in my physics text book and it says that the wavelength is too long to be seen by the human eye.