It doesn't form an image on the eye but in the brain.
The cornea and the crystalline lens are responsible for refracting light rays to form the image of an object on the retina.
The retina which is where the image from the eye lens is focused. The retina is the reflective part of the eye. That's why cat's eye reflect so well, their retina are more exposed in the night because their pupils (or whatever they are in a cat) open wider than ours exposing more of that mirror at the back, the retina. Meeow!
Light rays pass through a convex lens and are refracted to converge at a focal point just behind the lens. This focused light then enters the eye through the pupil and is further refracted by the cornea and lens to form an image on the retina.
The image formed in the eye is inverted due to the way light rays are refracted by the cornea and lens before they reach the retina. This inversion is a natural consequence of the optics of the eye but is corrected by the brain so that we perceive objects correctly.
Light rays travel in straight lines from a light source, like a candle, and pass through the air until they reach your eye. Once the light rays enter your eye, they are focused by the lens onto the retina, where they stimulate the nerve cells to create an image.
The reception of light by the human eye is more commonly known as vision or sight. This is when light rays are bounced off an object into an eye and sent to the brain in the form of an image.
An inverted image with the eye refers to an image that is formed upside down on the retina of the eye. This happens because light rays coming from an object are refracted by the eye's lens and focused on the retina. The brain then processes this inverted image and interprets it as right side up.
An image formed by a plane mirror cannot be projected onto a screen because the image is virtual and appears to be behind the mirror. This means that light rays do not actually converge at the location of the image, making it impossible to project onto a screen.
The cornea and the lens focus the light on the retina - but the "image" you see is formed in the brain from just parts of the light image that exists in the eye.
As the concave mirror gets closer to your eye, the orientation of the image will change from upright to inverted. This is due to the changing focal length of the mirror, causing the light rays to converge differently. The closer the mirror gets, the more divergent the light rays will be, leading to an inverted image.
The lens of the eye is primarily responsible for image formation. It works by refracting incoming light rays to focus them onto the retina, where the image is converted into neural signals that are sent to the brain for processing.
I'm not sure, but I think the answer is upside down.