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virtual: Apex
Diverging lenses always produce images that are upright. The images are virtually reduced and trapped within the lens which will act as a magnifying glass. .
Because of it's shape a concave lens bends or refracts light outward away from the center of the lens and towards its thicker edges. The light rays never cross or meet a focal point so the image never inverts. A concave lens makes objects appear smaller than they really are.
Smaller than actual object and upright (right-side-up)
Bissell upright vacuums probably operate just like any other vacuum cleaner. When you flip the switch, they begin to produce suction so that floor debris can be picked up and thrown in the trash.
virtual: Apex
Different mirrors form different types of images. A convex mirror forms smaller, upright, and virtual images. They are also located behind the mirror.
Rear View MirrorThe kind of mirror used in the rear-view mirror must be convex mirrors, because it creates smaller, yet still upright images. Concave mirrors would create an inverted image and the cars you see are not upside down. Convex mirrors make everything smaller so this allows the driver to see a greater range of things behind him.
Diverging lenses always produce images that are upright. The images are virtually reduced and trapped within the lens which will act as a magnifying glass. .
real and upright image
The most common type of reflecting telescope produces an inverted image. However, it's possible for a reflecting telescope to produce an upright image, depending on exactly how the optics are arranged.
upright and smaller than the object
two molecules are formed, each with the original "upright"
You are seeing a reflection and you are seeing a reflection of the reflection.
Because of it's shape a concave lens bends or refracts light outward away from the center of the lens and towards its thicker edges. The light rays never cross or meet a focal point so the image never inverts. A concave lens makes objects appear smaller than they really are.
Maroon 5 degrees upright Silver 4 degrees upright White 3 degrees upright Green 2 degrees upright Blue 1 degree upright Black standard lie Red 1 degree flat Orange 2 degrees flat Brown 3 degrees flat Gold 4 degrees flat
the relationship is that in order to have an image u have to have a special type of attituede like nice and sweet also it ddepends on the type of person and there attitude ^^^ Don't listen to this whatsoever. Now, the attitude of the image describes whether the image is upright or inverted, correct? And the type of image is real or virtual. Now, the relationship between the two is the same for all types of mirrors/lenses. With concave mirrors, when the image is real then it is inverted, whereas when it's virtual it is upright. With convex mirrors when the image is virtual it is also upright, and although I haven't seen a real image on convex mirror ray diagrams, theoretically if the image was real it would be inverted. With a diverging lens if the image is virtual it is upright and as with the convex lens although I have never seen a real image on a ray diagram for a diverging lens it would theoretically be inverted. Finally, with a converging lens if the image is real then it's inverted and if it's virtual it is upright. So, the relationship between attitude and image is this: If the type of image is real, the attitude of the image is inverted. If the type of image is virtual, the attitude of the image is upright.