Examples of convergent cross mapping in the following topics:
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- Examples include the Granger causality test and convergent cross mapping.
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- Are the images we see directly mapped onto our brain like a projector?
- Convergence upon a single point is another visual cue that provides information about distance.
- As objects move farther away into the distance, they converge into a single point.
- This is useful when you cross the street: as you watch a car come toward you, your brain uses the change in size projected on your retina to determine how far away it is.
- The train tracks look as though they come to a single point in the distance, illustrating the concept of convergence.
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- Many perceptual maps also display consumers' ideal points.
- Perceptual maps need not come from a detailed study.
- There are also intuitive maps (also called judgmental maps or consensus maps) that are created by marketers based on their understanding of their industry.
- Still others are constructed from cross price elasticity of demand data from electronic scanners.
- A combination map allows companies to find a space that has unmet consumer desires.
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- An aberration, or distortion, is a failure of rays to converge at one focus because of limitations or defects in a lens or mirror.
- An aberration is the failure of rays to converge at one focus because of limitations or defects in a lens or mirror.
- This aberration happens when the lens fails to focus all the colors on the same convergence point .
- Spherical aberrations are a form of aberration where rays converging from the outer edges of a lens converge to a focus closer to the lens, and rays closer to the axis focus further.
- The apparent effect is that of an image which has been mapped around a sphere, like in a fisheye lens.
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- Meanwhile, William Howe would march up the Hudson to Albany, where the expeditions would converge.
- Lawrence and crossed Lake Ontario, arriving at Oswego without incident.
- This map shows the movements of the opposing armies in the Saratoga campaign.
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- Such a lens is called a converging (or convex) lens for the corresponding effect it has on light rays.
- The point at which the rays cross is defined as the focal point F of the lens.
- Sunlight focused by a converging magnifying glass can burn paper.
- Light rays from the sun are nearly parallel and cross at the focal point of the lens.
- The more powerful the lens, the closer to the lens the rays will cross.
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- The mapping of genes relative to each other based on linkage analysis led to the development of the first genetic maps.
- Observations that certain traits were always linked and certain others were not linked came from studying the offspring of crosses between parents with different traits.
- The exchange of DNA between homologous pairs of chromosomes is called genetic recombination, which occurs by the crossing over of DNA between homologous strands of DNA, such as nonsister chromatids.
- The generation of genetic maps requires markers, just as a road map requires landmarks (such as rivers and mountains).
- Early genetic maps were based on the use of known genes as markers.
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- A ray passing through the center of either a converging or a diverging lens does not change direction.
- A ray entering a converging lens through its focal point exits parallel to its axis.
- Consider an object some distance away from a converging lens, as shown in .
- The three rays cross at the same point on the other side of the lens.
- The image is located at the point where the rays cross.
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- HEVs enable lymphocytes (white blood cells) circulating in the blood to directly enter a lymph node by crossing through the HEV.
- Venules form when capillaries come together and converging venules form a vein.
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- A ray entering a converging lens parallel to its axis passes through the focal point F of the lens on the other side. ( See rays 1 and 3 in . )
- A ray passing through the center of either a converging or a diverging lens does not change direction.
- A ray entering a converging lens through its focal point exits parallel to its axis.
- (a) Parallel light rays entering a converging lens from the right cross at its focal point on the left.
- Rays of light entering a converging lens parallel to its axis converge at its focal point F.