If you mean during printing and are referring to the projected image, it is upside down if you put the negative in the carrier the wrong way. The image should go upside down in the carrier so that it is projected right side up.
An image that is upside down as compared to the object are known as inverted images. Example, the first thing you will notice is that the concave side of the spoon makes your image come upside down. Such an image is called an inverted image.
You can figure out why an image in a pinhole camera is upside down if you think about how the light travels to get to the image. Light from an object higher (or the top of the object) than the camera travels in a straight line down to the camera. It goes through the pinhole and continues heading down until it hits the back of the camera. This means that the image of something higher than the camera is now low in the image. The opposite is true for light from an object lower than the camera (or the bottom of the object): it travels to a point higher in the image. Still does answer my question, how did the image get upside down? answer was no concusive.
a upside down image is formed in your camera then flipped around when it is seen by the human eye -Monica Magallon
As light travels through a convex lens (used in most slide projectors), the light and slide image are turned upside-down. Therefore, in order to appear correctly on screen, the image must enter the lens upside-down, which would then be inverted by the lens to appear right-side up. **** Furthermore, they are reversed left to right. What applies to the vertical holds true for the horizontal. The above holds true for any type of slide projector that performs similar to a Kodak carousel. However, the cube projector (Bell & Howell?) was different because the image bounced off of a mirror before going through the lens. I believe those slides were inserted into the cube right side up, but backwards (left to right), but I'm not sure.
The Greeks invented the camera obscura, or 'pinhole' camera. A Greek artist covered a window with a dark material, then punched a small hole through. An upside-down image of the scene was seen on the inside wall and traced by the artist. This was one of the first types of cameras ever heard of.
If it's both upside down and reversed from left to right, it would be equivalent to the image rotated 180 degrees.
The word "NOON" is an example of an image that reads the same right side up and upside down.
When the image reaches the eye, it is right-side up. The optics in your eye flip the image upside down in the process of absorbing the light. The up-side down image is then sent to your brain. You brain translates it back to right side up, and then creates the image for you to see. The image never appears upside down to you, because your brain does not create the image for you to see until it has flipped it back right-side up.
No, a plane mirror does not flip an image upside down. It produces a mirror image that is laterally inverted, meaning left and right are switched, but top and bottom remain the same.
A convex lens
The image on a projector is often upside down because of the orientation of the projector relative to the screen. Projectors are designed to be installed upside down or right-side up depending on the installation setup, and the image can be adjusted using the projector settings to correct the orientation.
A concave mirror gives an upside down image at a certain distance called the focal point. As you move closer to the mirror beyond the focal point, the image flips and becomes right side up.
When light enters our eyes, it is refracted by the cornea and lens, creating an upside-down image on the retina. The brain then processes this image and flips it right side up so we perceive the world correctly.
Yes, when you look at something upside down, the image will be projected upside down onto your retina, located at the back of your eyeball. However, your brain is able to interpret the image and flip it right side up so that you perceive the object correctly.
Yes, in a compound microscope, the image is upside down and reversed left to right. This is due to the way the lenses refract and bend light rays. However, the image can be further adjusted using additional lenses to correct the orientation.
The periscope uses mirrors to reflect the image, and in doing so, it flips the image upside down due to the nature of how light reflects off a flat surface. This inverted image is then corrected by our brain to appear right-side up.
No, TV pictures are broadcast the 'right' way up - however, your eyes' lenses form an image on your retinas of everything in the world upside-down, and your brain adjusts the image to look correct.