yes. To try this you need to stare at something blue and think of a question in your head and if you got it wrong and it's an easy question that you can normally answer then it affects you. On some people it doesn't affect them at all but they must practice staring at blue so that there used to it. x
I can't read the question, my monitor is too bright. :(
well if you look into the human eye it is proven that poo is the answer
A pencil has nothing to do with the brightness of a light bulb.
Photoreceptor
No. Its apparent magnitude (i.e., brightness) is about 8; with the naked eye, we can see objects up to approximately magnitude 6.
No. It is too small and too far away to be seen with the naked eye, despite its relative brightness when observed by telescopes.
Brightness corresponds to amplitude of waves. Greater amplitude means greater brightness (so lower amplitude means less brightness).
Dark colored or shadowy eye makeup can accentuate bedroom eyes. The darkening effect can add brightness to eye color and provides a mysterious and sultry effect.
A pencil has nothing to do with the brightness of a light bulb.
Photoreceptor
Absolutely. Just as fluorescent lights affect eyes, computer screens can lead to eye strain, the brightness can lead to degradation of eyesight and cause headaches.
depends on the strength of your lens
the brightness hurts your eye rods
They are for seeing, but they can only see the brightness of things.
Lumosity refers to the level or quality of brightness emitted by something, such as a light source or a reflective surface. It is often used to describe the intensity or brilliance of light.
Apparent magnitude.
Apparent magnitude.
The brightness of a star is not affected by its magnitude/size but is instead affected by the heat at which the star burns.
By definiton, "dark" matter neither emits or absorbs light. Thus, it does not effect the brightness of galaxies.