strebght
The function of ganglia in the human body is to get information from the photoreceptors and collectively transmit image-forming and non-image forming visual information from the retina to regions in the brain.
To focus an image of the external world on the retina and then send that information ot the occipital lobes of the brain so that if can be interpreted as vision.
Metaphorically the eye interprets the image, but more precisely it is the brain which interprets the image, and the brain learns to do so in a functional manner. An inverted image would make it harder to understand what you are seeing, so the brain rotates it to be erect.
optical?
I'm unable to draw images as I'm a text-based assistant. However, you can easily find visual representations of the lobes of the human brain by conducting an online image search or referring to medical textbooks or educational websites on neuroscience. These illustrations often highlight the frontal, parietal, temporal, and occipital lobes, pointing out their functions and locations within the brain.
all love hearty and wierd search up human brain on google image search and poof there it is all love hearty and wierd search up human brain on google image search and poof there it is
I think a pinhole camera is similar to the human eye because like the pinhole camera when it sees something it reflects the image but it is an inverted image. With the human eye the brain corrects it and turns it the right way up. The pinhole cameras image is not corrected because it does not have a lens.
A real and inverted image is produced by the converging lens of the human eye when viewing a distant object. This image is formed on the retina at the back of the eye, allowing the brain to process the visual information.
Your brain perceives the reflected object as being as far BEHIND the mirror as the real object is in FRONT of the mirror.
Warren Gorman has written: 'Body image and the image of the brain' -- subject(s): Body image, Brain
The function of ganglia in the human body is to get information from the photoreceptors and collectively transmit image-forming and non-image forming visual information from the retina to regions in the brain.
To focus an image of the external world on the retina and then send that information ot the occipital lobes of the brain so that if can be interpreted as vision.
Metaphorically the eye interprets the image, but more precisely it is the brain which interprets the image, and the brain learns to do so in a functional manner. An inverted image would make it harder to understand what you are seeing, so the brain rotates it to be erect.
You have to see the brain like a ant
A Virtual Image
1. The camera is a machine, while the eye is alive.2. The camera converts the image right side up, while the eye turns the image up-side-down.3. The human eye is much more complex and hooked to the brain.
No, the lens in your eye does not flip the image. It helps to focus the light coming into your eye onto the retina, where the image is then transmitted to the brain. The brain then processes the image and interprets it correctly, without flipping it.