yes
a real image lab exercise 24 p 371, description for figure 24.8 Marieb & Mitchell Human Anatomy and Physiology Laboratory Manual 10th Edition
If it's both upside down and reversed from left to right, it would be equivalent to the image rotated 180 degrees.
The world doesn't seem up side down to us, even through our retinas, because , your brain works to recognize the image and flips around, sends it to the nerves and lets you see wright side up.
its because the lens of the microscope is convex. this means that it is curved a little bit, like the lenses of glasses. this causes the image to appear upside down. try looking into the curved part of a spoon from both sides. one side your reflection is normal, but on the other side your reflection is upside down, because of concave and convex. The side where you see your reflection normal is concave, and the side where it is backwards is convex. hope i helped!
yes it always produces a virtual image. it is always erect. Its size is always diminshed. Distance from the mirror is always between Focus and Pole
convex lens
A convex lens
a real image lab exercise 24 p 371, description for figure 24.8 Marieb & Mitchell Human Anatomy and Physiology Laboratory Manual 10th Edition
it is convex
Is called real image. The image formed on the retina as a result of the refractory activity of the lens is a real image (reversed from left to right, inverted, and smaller than the object)
If it's both upside down and reversed from left to right, it would be equivalent to the image rotated 180 degrees.
Because that is how the brain is organised. Once it is processed, the brain knows what way the image should be. While your eyes' lenses may create an inverted (upside down) image, the brain corrects this automatically, so there is no "upside-down" to be noticed.
This image is always located in front of the lens.
retina
your face on a spoon
Here is a description of image formation in a concave mirror: if the object is beyond the center of curvature (F), the image formed is real and upside down; if the object is very near to the concave mirror, the image forms behind the mirror. It is virtual, upright, and bigger in size. Here is a description of image formation in a convex mirror: a convex mirror always produces a virtual, upright, and smaller image of the object at any distance in front of it. The image is located behind the mirror.
true