Your question doesn't make much sense. Rephrase it, and this time, you have to tell us what the test/experiment your are running is, and the problem/ qusetion that you are trying to answer. Then we can definently help you.
A hypothesis
Their eyes. He got them anyways
ANSWER: A verbal hypothesis is when you say a hypothesis orallly.
A hypothesis.
Hypothesis? Hypothesis is a proposal intended to explain certain facts or observations
Human eyes are not sensible to these radiations.
The human eye's sensitivity to wavelengths in the visual window of Earth's atmosphere is due to evolution adaptations during the development of the human eye. If infrared radiation were in abundance, then it is believed our eyes would be sensitive to infrared radiation.
There's a broad band of wavelengths of light coming from a rainbow. They range from wavelengths that are too short for your eyes to detect, all the way to wavelengths that are too long for your eyes to detect. Within that band of wavelengths is the total band that your eyes can detect, and you see them as a spread out display of all the colors that your eyes and brain can work together to perceive.
Our eyes can detect them.
If you mean, "which wavelengths of light can the human eye detect," the human eye can see wavelengths from about 390 to 700 nanometers.
It's the way the brain interprets different wavelengths of light.
Most humans eyes are sensitive to wavelengths between about 400 nanometers and 700 nanometers
The band of wavelengths roughly between 400 to 750 nanometers, often referred to as the band of "visible light" for that very reason.
Light is made up of radiation of different wavelengths/frequencies; our eyes can perceive some of these differences in wavelengths/frequencies.Light is made up of radiation of different wavelengths/frequencies; our eyes can perceive some of these differences in wavelengths/frequencies.Light is made up of radiation of different wavelengths/frequencies; our eyes can perceive some of these differences in wavelengths/frequencies.Light is made up of radiation of different wavelengths/frequencies; our eyes can perceive some of these differences in wavelengths/frequencies.
Because it's comprised of the band of wavelengths that the human eye can detect, that is, wavelengths that are 'visible' to human beings.
Most humans eyes are sensitive to wavelengths between about 400 nm (violet) and 700 nm (red)
as human eyes are sensitive to only wavelengths ranging from 400 nanometers to 700 nanometers, so human beings can see light between these limits, and the rest of the light passes unseen.