mirrors
concave (converging) -->)
-virtual: enlarged upright image when Do -real: enlarged inverted image when C>Do>F -real: same size inverted image when Do=C -real: diminished (smaller) inverted image when Do>C convex (diverging) -->( -virtual: diminished when Do is anywhere plane (flat) -->l -same size virtual meanings of lingo Di is distance of image from mirror Do is distance of object mirror C is center of curvature F is focal point "this is between the center of curvature and mirror
Convex (curves out), Concave (curves in) and plain (flat).
There is the concave mirror, convex mirror, and plane mirror.
Plane or flat, convex and concave
Convex, concave and flat.
convex and concave
there are three kinds of mirror 1) concave 2) convex 3) plane
Since no of images = 360/theta -1 then 360/90-1 4-1 == 3
A kaleidoscope has three{3} mirror
Three materials that reflect light are glass, any shiny surface, and concrete.
The three kinds of Melodic Directions are Ascending, Descending and Repeated.I hope this answers your question!! :)
there are three kinds of mirror 1) concave 2) convex 3) plane
Three images will be formed
Sink in , Disappear and Back
There are usually two to three mirrors in a scanner and they are slightly curved so to reflect the image onto a smaller surface.
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There are usually two to three mirrors in a scanner and they are slightly curved so to reflect the image onto a smaller surface.
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kaleidoscope is a thing/object which works on the principle of multiple reflections. the three plain mirrors reflect light that,s why we can see paterns.
3.3.3.3.
A kaleidoscope is a device made of (usually three) mirrors facing each other. In most cases, some small, sparkly matter is put in a slide on the end. Anything on the end is reflected by the mirrors, and the mirrors reflect each other, repeating the image over and over.
Since no of images = 360/theta -1 then 360/90-1 4-1 == 3
The kaleidoscope is a tube of mirrors containing loose colored beads or pebbles, or other small colored objects. The viewer looks in one end and light enters the other end, reflecting off the mirrors. Typically there are two rectangular lengthways mirrors. Setting of the mirrors at 45° creates eight duplicate images of the objects, six at 60°, and four at 90°. As the tube is rotated, the tumbling of the colored objects presents the viewer with varying colors and patterns. Any arbitrary pattern of objects shows up as a beautiful symmetric pattern because of the reflections in the mirrors. A two-mirror model yields a pattern or patterns isolated against a solid black background, while a three-mirror (closed triangle) model yields a pattern that fills the entire field. Also, 4 mirror patterns may be used, as well as colored oils in cells, wands, even silk scarves. It was invented in the 19th century by Sir David Brewster. He named it from two Greek words meaning 'beautiful' and 'form', and added the word scope to show that it was something that you look through. It is basically a tube lined with mirrors set at angles to each other. If someone looked in one end then the light would come up from the other end and reflect of the mirrors. The closer the mirrors are together the more images or patterns. For example: Setting the mirrors at 45˚ then you would see eight patterns or images. If you set the mirrors at 60˚ then you would see six images or patterns and if you set the mirrors at 90˚ then you would only see four images or patterns. Usually there are 2 rectangular mirrors set lengthways but there can be more mirrors depending on the type of kaleidoscope.