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Yes. Under translation the shape does not change, only the position of the shape changes - the translated shape is congruent to the original shape.
It is (2, -6)
If the original point was (-4, 12) then the image is (-16, 48).
Possibly under certain conditions, but not generally. Consider a nonmeasurable set A, and define f(x) = 1 if x in A 0 otherwise. Then {1} is certainly measurable but the inverse image {x | f(x) = 1} = A is not measurable.
In the New King James translation, the word "family" appears just under one hundred times.
The image is reversed under a microscope because of the way light is refracted by the microscope's lenses. This optical system produces an inverted image due to the way the objective and eyepiece lenses are configured. The inverted image is then corrected by the brain as it interprets the visual information from the microscope.
Right click the image, then click "save image as..." and save it under whatever file you want
Image.
Sharpness refers to the degree of clarity and focus in an image produced by a microscope. It is influenced by factors such as the quality of the microscope optics, resolution of the camera or eyepieces, and the correct adjustment of the focus. A sharp image will have clear and well-defined details, making it easier to observe and analyze the specimen.
meaning........... IMAGE Age: Rank: Hometown: ect...
Yes. Under translation the shape does not change, only the position of the shape changes - the translated shape is congruent to the original shape.
A microscope produces a magnified image of small objects or structures that are not visible to the naked eye. The image is typically in black and white, with high contrast and detail.
cause they are tuff
It is (2, -6)
K10D
The position of an image under a microscope varies based on the type of microscope being used. In a compound microscope, the image is formed inverted and reversed from the object being observed. In a stereo microscope, the image is typically upright and not inverted.
The image becomes inverted under the low power objective due to the design of the microscope and the way light rays are refracted and magnified by the lenses. The inverted image is a result of the optics in the microscope system.