What is Projections: Definition and 101 Discussions

In cartography, a map projection is a way to flatten a globe's surface into a plane in order to make a map. This requires a systematic transformation of the latitudes and longitudes of locations from the surface of the globe into locations on a plane.
All projections of a sphere on a plane necessarily distort the surface in some way and to some extent. Depending on the purpose of the map, some distortions are acceptable and others are not; therefore, different map projections exist in order to preserve some properties of the sphere-like body at the expense of other properties. The study of map projections is the characterization of the distortions. There is no limit to the number of possible map projections.
Projections are a subject of several pure mathematical fields, including differential geometry, projective geometry, and manifolds. However, "map projection" refers specifically to a cartographic projection.
Despite the name's literal meaning, projection is not limited to perspective projections, such as those resulting from casting a shadow on a screen, or the rectilinear image produced by a pinhole camera on a flat film plate. Rather, any mathematical function that transforms coordinates from the curved surface distinctly and smoothly to the plane is a projection. Few projections in practical use are perspective.Most of this article assumes that the surface to be mapped is that of a sphere. The Earth and other large celestial bodies are generally better modeled as oblate spheroids, whereas small objects such as asteroids often have irregular shapes. The surfaces of planetary bodies can be mapped even if they are too irregular to be modeled well with a sphere or ellipsoid. Therefore, more generally, a map projection is any method of flattening a continuous curved surface onto a plane.A model globe does not distort surface relationships the way maps do, but maps can be more useful in many situations: they are more compact and easier to store; they readily accommodate an enormous range of scales; they are viewed easily on computer displays; they can be measured to find properties of the region being mapped; they can show larger portions of the Earth's surface at once; and they are cheaper to produce and transport. These useful traits of maps motivate the development of map projections.
The best known map projection is the Mercator projection. Despite its important conformal properties, it has been criticized throughout the twentieth century for enlarging area further from the equator. Equal area map projections such as the Sinusoidal projection and the Gall–Peters projection show the correct sizes of countries relative to each other, but distort angles. The National Geographic Society and most atlases favor map projections that compromise between area and angular distortion, such as the Robinson projection or the Winkel tripel projection

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  1. nomadreid

    I Dot product, inner product, and projections

    In simple Euclidean space: From trig, we have , for u and v separated by angle Θ, the length of the projection of u onto v is |u|cosΘ; then from one definition of the dot product Θ=arcos(|u|⋅|v|/(u⋅v)); putting them together, I get the length of the projection of u onto v is u⋅v/|v|. Then I...
  2. C

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  3. B

    B Wave/Particle Duality: Helical Paths & Planar Projections

    With respect to wave/particle duality, is it correct to think of a particle traveling a wave path? And if so, given that no orientation with respect to an observer of that wave is generally considered, is the "wave" that is referred to then more accurately the planar projection of a helical path?
  4. Tesla In Person

    Orthographic projections of object drawings

    Hi, I have this mcq . The image shows the Top and Front view of an object, what is the side view of this object? I am finding it very difficult to even interpret the top and front views. I will get questions like these in my exam so I must be able deduce the 3rd view from 2 given views of the...
  5. A

    Linear algebra projections commutativity

    Textbook answer: "If P1P2 = P2P1 then S is contained in T or T is contained in S." My query: If P1 = \begin{pmatrix} 1 & 0 & 0 \\ 0 & 0 & 0 \\ 0 & 0 & 0 \\ \end{pmatrix}and P2 =\begin{pmatrix} 0 & 0 & 0 \\ 0 & 1 & 0 \\ 0 & 0 & 0 \\ \end{pmatrix} as far as I...
  6. Isaac0427

    B Orthogonal Projections: Same Thing or Not?

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  7. Physics lover

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  8. Math Amateur

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  9. M

    Projections of functions and bases

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  10. T

    B Question about finding the force using vector projections

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  11. M

    I Proving the Orthogonal Projection Formula for Vector Subspaces

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  12. hnnhcmmngs

    Vectors and scalar projections

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  13. I

    Projections and direct sum

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  14. I

    Proving ideas about projections

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  15. U

    Projection Matrix Homework: Equations & Solution

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  16. Elissa Damron

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  17. A

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  18. Buggsy GC

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  19. Kaura

    I Battle Projections: Predicting Probabilities in Games

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  20. R

    How Does the IPCC Determine Confidence Levels in Climate Projections?

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  21. A

    Engineering Free Exercises on Right Angle Projections & Cross Section Views

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  22. A

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  23. S

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  24. P

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  26. Jarvis323

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    Homework Statement 16. Suppose P is the projection matrix onto the line through a. (a) Why is the inner product of x with Py equal to the inner product of Px with y? (b) Are the two angles the same? Find their cosines if a = (1;1;¡1), x = (2;0;1), y = (2;1;2). (c) Why is the inner...
  27. R

    Orthogonal Projections vs Non-orthogonal projections?

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  28. E

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  29. S

    Proof regarding orthogonal projections onto spans

    Homework Statement Let U be the span of k vectors, {u1, ... ,uk} and Pu be the orthogonal projection onto U. Let V be the span of l vectors, {v1, ... vl} and Pv be the orthogonal projection onto V. Let X be the span of {u1, ..., uk, v1, ... vl} and Px be the orthogonal projection onto X...
  30. A

    Projections in L^2 spaces

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  31. U

    Finding a vector using scalar and vector projections

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  32. NATURE.M

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  33. M

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  34. P

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  35. P

    Understanding Edexcel GCE January 2010 Mechanics M2 QP: Question 8C Explanation

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  36. djh101

    Orthogonal Projections: Minimize a^2 + b^2 + c^2

    Homework Statement There are three exams in your linear algebra class and you theorize that your score in each exam will be numerically equal to the number of hours you study. The three exams count 20%, 30%, and 50% and your goal is to score 76% in the course. How many hours, a, b, and c...
  37. G

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    Say I have a set of points in 2D space. How would I find a line that maximizes the sum orthogonal projection of the points onto the line. The line does not have to go through the origin.
  38. P

    Projections of complex vectors

    I need some clarification on projections of complex vectors. If I have a nxm matrix of complex numbers V and a mx1 matrix s, and I want to find the projection of s onto any column of V. The formula to do this is c = <V, s>/||V(j)||^2 where V(j) is the column of V to be used. My question is...
  39. A

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  40. P

    Calculating Velocity and Distance with Simple Projections

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  41. G

    Projections from Tubular Neighborhoods

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  42. I

    Do projections of lines which are not perpendicular correspond to FLTs?

    A math question about projections of lines: Say we have two straight lines which we consider as number lines (\mathbb{R}). I've learned that a projection of one line onto another is of the form ax + b for a,b\in \mathbb{R} when the two lines are parallel. If we allow the possibility that the...
  43. N

    Planar geometry, orthognal projections of a piece of a plane

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  44. T

    Linear Algebra: Orthogonal Projections

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  45. Z

    Projection onto Column Space of A and its Perpendicular

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  46. S

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  47. J

    Can someone check my Fischer Projections?

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  48. T

    Proving Characteristics of Projections

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  49. B

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  50. O

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