![A convex lens in a human eye adjusts its focal length based on the object position. If it can form a clear image on retina for objects as close as 25 cm A convex lens in a human eye adjusts its focal length based on the object position. If it can form a clear image on retina for objects as close as 25 cm](https://df0b18phdhzpx.cloudfront.net/ckeditor_assets/pictures/1661885/original_Picture11.png)
A convex lens in a human eye adjusts its focal length based on the object position. If it can form a clear image on retina for objects as close as 25 cm
What is the focal length of the eye and what happens to objects that lie between the lens and this focal point? Does this produce a virtual uninverted image and if so
![The early signs and symptoms of presbyopia | Points de Vue | International Review of Ophthalmic Optics The early signs and symptoms of presbyopia | Points de Vue | International Review of Ophthalmic Optics](https://www.pointsdevue.com/sites/default/files/fig_3_12.png)
The early signs and symptoms of presbyopia | Points de Vue | International Review of Ophthalmic Optics
![The focal length of a normal eye-lens is about:$(a){\\text{ 1mm}} \\\\(b){\\text{ 2cm}} \\\\(c){\\text{ 25cm}} \\\\(d){\\text{ 1m}} \\\\ $ The focal length of a normal eye-lens is about:$(a){\\text{ 1mm}} \\\\(b){\\text{ 2cm}} \\\\(c){\\text{ 25cm}} \\\\(d){\\text{ 1m}} \\\\ $](https://www.vedantu.com/question-sets/23766a8b-704b-4a02-9898-45078c04e63b6462374204689754885.png)