yes it is seen inverted
yes.
It is laterally inverted. (:
inverted
adjust eyepiece
The lenses used reversed the image.
yes.
It is inverted .
we do get inverted image at the ratina. But this inverted image itself is being treated as errected by our mind.
When measurement of final image is required then the cross wire should be placed between the field lens and eye lens. But the cross-wire is viewed through the eye lens only, the distant is viewed by ray refracted through the lens.Due to this reason,relative lengths of the cross-wire and the image are disproportionate. Hence cross-wire cannot be used in Huygen's eyepiece and this is a disadvantge.
The image is inverted when it reaches the retina. The brain then interperets the image as right-side-up.
When an image is viewed through a microscope it is inverted, meaning turned upside down and it is also shown mirror image, meaning from left to right.
In biology, the eyepiece in a typical light microscope is used for magnifying the image being viewed (the field of view) by 10 times. Secondly, the eyepiece also has a scale on it which is visible when you look down through the microscope at an image, or at your field of view. This scale has divisions on it which you can use to measure the length of the cellular structures you are looking at. So basically, the eypiece magnifies the image and has a scale on it which you can use to measure the structures in the cell.
The telescope has an object lens at the top, which is a large lens with a long focal length. It produces an inverted image of a distant obect at the focal point. The eyepiece is a smaller lens, and you look through the eyepice at the image formed by the object lens. The image is formed in space, it does not need a screen, and you can see it with the eyepiece. The ratio of the focal lengths of the two lenses is the linear magnification.
For a convex lens, if you trace out the path of the rays as they are refracted through the lens, you'll see that the inverted image gets reversed horizontally as well as vertically (in other words, the "inverted" image is really a 180 degree rotation about the axis through the center of the lens).
hygen's eyepiece gives a superior image because spherical and chromatic aberrations are minimised than that of ramsden's eyepiece
To keep the answer very simple, the specimen being viewed is inverted when light passes through the objective lens (carrying the image) , which is usually convex in nature. So if you view something which is already "inverted" it would get corrected, i.e appear right. (The bending of light is called a refraction, which causes the image to bend along with it.)
retina