decreased
When looking at near objects, the ciliary muscles are contracted. This contraction causes the lens of the eye to become more rounded, enabling the eye to focus on close-up objects through a process known as accommodation.
infront of the retina i think :)
The part of the eye responsible for fine-tuning the refraction of incoming light is the lens. The lens focuses light onto the retina at the back of the eye, helping to create a clear image. The lens changes shape to adjust the focus for near or far objects, a process known as accommodation.
NASA's Near Earth Objects program is one group that tracks object that pass near the Earth (you might have expected that from the name).
no answer
Farsightedness
A farsighted person can see distant objects clearly, but nearby objects appear blurry. The eyeball is too short, so the image that falls on the retina is out of focus. A convex lens corrects this by bending light rays toward each other before they enter the eye. An image then focuses on the retina.
only part of light its absorbed by nearby objects, that part that causes decay on the surface of the objects 'radiation' part of light the rest turns back into raw energy.
Near-Earth Objects. Comets, meteors, and other things in space that are near Earth.
Near object form bigger angle and distant objects form smaller angle. From this angle formed, you can judge the distance between near and distant objects. But their is limit to the smallest angle, you can perceive. That is why you can not note difference between the near and distant stars.
Objects that fall near Earth's surface are rarely in free fall because air resistance exerts a force on the falling objects. This force opposes the force of gravity, resulting in a net force that is not solely directed downwards. As a result, the objects do not accelerate at the full rate of gravity, causing their motion to deviate from true free fall.