In the human eye, the image distance changes when we increase the distance of an object from the eye. This phenomenon is governed by the eye’s ability to focus on objects at various distances, a process known as accommodation. Here’s what happens to the image distance in the eye as the object is moved farther away:

1. Focusing on Distant Objects:

. When you look at distant objects (objects at a distance of several meters or more), the ciliary muscles in the eye are relaxed.
. The relaxed ciliary muscles cause the eye’s lens to flatten and become thinner.
. This flattening of the lens results in a longer focal length, and light from distant objects is focused on the retina.
. In this case, the image distance is the length of the eye (about 2.3 cm) and remains relatively constant for objects at great distances.

2. Focusing on Closer Objects:

. When you look at objects that are closer to the eye, the ciliary muscles contract.
. The contracted ciliary muscles cause the eye’s lens to become more rounded and thicker.
. This increased curvature of the lens results in a shorter focal length, allowing the eye to focus on objects that are closer.
. For closer objects, the image distance becomes shorter as the lens changes its shape to bring the image into focus on the retina.

So, as you increase the distance of an object from the eye, the image distance within the eye will also change to maintain clear focus on the object. The eye’s ability to adjust the shape of the lens and, consequently, the focal length, allows it to form a sharp image on the retina, regardless of whether the object is near or far. This dynamic adjustment of the lens curvature is essential for maintaining clear vision at various distances, a process known as accommodation.