when an object is brought closer to the lens of a camera it gets smaller so that
we could capture it properly.
such lenses in a camera are conclave.
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.
the image distance will appear the same
A telephoto lens would bring a distant image closer.
The size of the image has no relevance to how close or far a lens is from its target, regardless if the camera is digital or not. If the camera is set to save images at 800x600, it will still be 800x600 no matter where the lens is focused.
a negative
When you take a photograph of an object, light from the object travels to the camera and is refracted by the lens, forming an image on the film. The image on the film is a real image because light rays actually meet there. The image is smaller than the object, because the object is a lot further away than the focal length of the lens and the image is inverted but the camera flips the image so that we see it the right way up.
The image is inverted and smaller than the object.
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.
If the object distance is decreased in a pin hole camera, the image size will increase. If the object is too close, the full image will not be formed and the screen will appear dark.
digital camera
the image distance will appear the same
The entire image is flipped upsidedown.
A camera lucida device is used by artists as a drawing aid. A camera lucida is used to superimpose the image of an object onto a drawing surface so the artist can recreate the image.
A magnifying glass is actually a convex LENS. The object you are looking at is closer to the lens but pass the focal point therefore you create an imaginary image that is larger than the actual object. An imaginary image is an image that you cannot focus on a screen.
As an object moves closer to a concave lens, the virtual image, that is created on the same side of the lens as the object, will remain upright but will be reduced in size.
the part of the camera where the image object is formed
The image becomes blurred and it's size increases.