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. W

    Vector Projections: Same Projection onto XY Plane?

    Which of the following curves have the same projection onto the xy plane? a) <t, t^2, e^t> b) <e^t, t^2, t> c) <t, t^2, cost>
  2. D

    Projections Check: Find Real Size of Sphere Beam

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  3. J

    Question about projections and subspaces

    If we want to caculate the projection of a single vector, v=(1,2) (which is an element of an R2 vector space called V) onto the subspace of V (which we call W), do we use projection of v onto W = <v,w1>w1 + <v,w2>w2 + ... <v,wn>wn However, if the individual values of v are not known (that...
  4. 0

    How do I Find Vector b for comp_ab = 2?

    Homework Statement If a=<3,-1> , find vector b such that comp_ab=2 Homework Equations comp_ab=\frac{a.b}{|a|} The Attempt at a Solution Still not entirely surecomp_ab is, exactly... is it C in the below? Lost...
  5. G

    Holographic projections onto the surface of a sphere

    I was reading the Scientific American latest edition and it was claimed that everything within the boundary of a particular timeframe volume can be described equally well by the projection of each event onto the surface. Is this accepted dogma? Suppose I picture (apparently I can't but...
  6. A

    Engineering Physics Projections

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  7. Simfish

    How reliable are BLS job projections?

    How did they do just before the crash of the 2000 tech bubble, for example? I've tried google, and it fails to produce anything relevant for the last 20 years
  8. Z

    Linear algebra Orthogonal Projections

    Homework Statement Given T is a projection such that ||Tx||≤||x||, prove T is an orthogonal projection. Homework Equations T:V\to V (V finite dimensional) <Tx,y>=<x,T^* y> general projection/idempotent operator: V=R(T)\oplus N(T) T^2=T orthogonal projection: R(T)=N(T)^{\perp}...
  9. N

    How are Stereographic Projections Derived in Differential Geometry?

    In cartesian coordinates (x.y,z) on the and (X,Y) on the plane, the projection and its inverse are given by the following formulae: (X,Y)=(x/1-z,y/1-z) (x,y,z)=(2X/1+X^2+Y^2, 2Y/1+X^2+Y^2, -1+X^2+Y^2/1+X^2 +Y^2) This relates to the field of differntial geo.Anybody have a proof to where thes...
  10. J

    What is the formula for the y-axis projection along a given line?

    Homework Statement Let T: R^2 -> R^2. Part a: Find a formula for T(a,b) where T represents the projection on the y-axis along the x-axis. Part b: Find a formula for T(a,b) where T represents the projection on the y-axis along the line L={(s,s):s is an element of R} Homework...
  11. P

    How to Find the Projection of a Force Along the Y-Axis in 3D?

    Homework Statement I have a force in three dimensions such that: F=600N Alpha(angle with x axis) = 120 Beta(angle with y axis) = 60 Omega(angle with z axis) = 45 I'm to find the projection of F along the y axis. The Attempt at a Solution I found the force vector for this force by...
  12. T

    Projections of Moments on a new Axis

    Hi all, this is my first post, so forgive me if this is in the wrong forum. (I believe it does belong here) We are currently doing moments in physics and I have seen this in a few homework problems but can't seem to grasp it. For example, in one question, we are given a new axis AA that...
  13. C

    Calculus 3 - Vector Projections

    Homework Statement In three dimensions, consider the vector V = a1i + a2j +a3k. Determine the projections of V onto the x, y, z axis. Homework Equations These are formulas from my textbook related to projection: All underscores mean subscript. Proj_A B = (B * A/|A|) A/|A| = ((B * A)/(A * A))...
  14. T

    Spin projections on different axis

    I am currently trying to understand the idea of quantum entanglement (more specifically the Bell inequality). But its brought up a lack of my knowledge of spin. So, I am trying to figure out how spin can be projected onto an arbitrary axis. Suppose there are two entangled electrons of...
  15. G

    Finding the Orthonormal Basis for a Given Subspace W

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  16. W

    Linear Algebra (eigenvectors, eigenvalues, and orthogonal projections)

    Homework Statement I am part way done with this problem... I don't know how to solve part e or part f. Any help or clues would be greatly appreciated. I have been trying to figure this out for a couple days now. W={<x,y,z>, x+y+z=0} is a plane and T is the orthogonal projection on it. a)...
  17. K

    Elections Projections: Algorithm & TV Stations

    Do you have any idea of the algorithm used to make the projections for which candidate wins an election? How are tv stations able to do it with less than 5% of the vote?
  18. N

    Property lines on the 2d projections

    Hi there...I need ur help on these questions: 1) Can H2O exist as a vapor at -40oc,As a liquid? Why? 2) What would be the general nature of Constant volume lines on Phase (P-T) diagram? Both questions are from Engg. Thermodynamics-Moran,Shaprio(Things engg. think abt section) Also, does anyone...
  19. W

    Vector Calc: Ortho Projections

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  20. S

    Finding Components, Projections of 3D Vectors

    I won't post the actual problem with numbers, I just need some direction. My teacher never went over this part of the webwork in class, and we haven't touched on it in physics either. "a" and "b" are both 3D vectors. 1.) I am supposed to find the component of "b" along "a" 2.) I am...
  21. F

    What is the relationship between range and nullspace for projections?

    Hi! Studying the introductory chapters of a Operator Theory book, I have found that the author seem to find a lot of demonstrations "easy" and not worthy of demonstrations. Yet, I don't have such ease as he has... For instance, one that has bugged me (on several books) is the proof that...
  22. T

    Linear algebra - Spectral decompositions: Eigenvectors of projections

    Homework Statement Let P1 and P2 be the projections defined on R^3 by: P1(x1, x2, x3) = (1/2(x1+x3), x2, 1/2(x1+x3)) P2(x1, x2, x3) = (1/2(x1-x3), 0, 1/2(-x1+x3)) a) Let T = 5P1 - 2P2 and determine if T is diagonalizable. b) State the eigenvalues and associated eigenvectors of T...
  23. M

    Mobius Transformations and Stereographic Projections

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  24. W

    New study shows recent cooling in opposition to climate model projections

    post deleted
  25. H

    Finding Orthogonal Projection of a Curve in the yz-Plane

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  26. B

    How can ||P|| = 1 be used to show that P = P*?

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  27. B

    Proving Orthogonal Projections: Showing 2-Norm Greater Than or Equal to 1

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  28. E

    Is U Invariant under T if PUTPU = TPU?

    Homework Statement Suppose T ∈ L(V) and U is a subspace of V. Prove that U is invariant under T if and only if PUTPU = TPU.Homework Equations The Attempt at a Solution Consider u\inU. Now let U be invariant under T. Now let PU project v to U so that PU(v)=u. Therefore TPU(v)=T(u). Now since...
  29. E

    Another question about projections.

    Say we have a transformation T\inL(V). Now suppose a subspace of V (U) is in the rangespace of T. Now suppose PUv=u with u=a1u1+...+amvm. Now apply T to u to get T(u)=b1u1+...+bmum=/=a1u1+...+amvm. What would happen if we apply PUto T(u)? In other words, what would we end up with after...
  30. E

    Question about orthogonal projections.

    Aren't all projections orthogonal projections? What I mean is that let's say there is a vector in 3d space and it gets projected to 2d space. So [1 2 3]--->[1 2 0] Within the null space is [0 0 3], which is perpendicular to every vector in the x-y plane, not to mention the inner product of...
  31. M

    Projections and diagonal form (Algebra)

    If V has finite dimension n, show that two projections have the same diagonal form if and only if their kernels have the same dimension. (A projection is defined to be a linear transformation P:V-->V for which P^2=P; V is a vector space). For the forward direction, I was thinking that if T...
  32. D

    Vector Projections on the xy Plane and z Axis

    Homework Statement The vector u of length 6 makes an angle of 40 with the z axis; it's vector projection on the xy plane makes an angle of 44 degrees with the x axis. The vector projection of a second vector v on the z axis has a length 5. The vector projection of v on the xy plane has a...
  33. K

    Understanding Scalar and Vector Projections: A Layman's Guide

    I'm re-visiting calculus again, and I've stumbled onto the concepts of scalar and vector projections in the vector chapter. While keeping in mind which equation to use for what projection is quite doable, I cannot seem to see the purpose of keeping scalar and vector projections in mind. Can...
  34. I

    [[another]] question about projections

    OK, this question has a lot of parts, so I'll do my best to write it in a way that makes sense. Basically, aVR, AVL, and aVF are the three main vectors in the direction of blood being pumped by the heart. The three endpoints of the vectors form an equilateral triangle that goes from each hand...
  35. M

    Project R4x1 onto R along N: Find Rule

    Homework Statement Let R={[x,y,z,w]:x=y and z=w} and N={[x,y,z,w]:x=-y and z=-w} Find the rule in standard coordinates for the projection of R4x1 onto R along NHomework Equations The Attempt at a Solution I have B wrt R as {[1,1,0,0],[0,0,1,1]} and B wrt N as {[1,-1,0,0], [0,0,1,-1]}, so my...
  36. S

    Linear Algebra - Orthogonal Projections

    Homework Statement Prove that if P in L(V) is such that P2 = P and every vector in Ker(P) is orthogonal to every vector in Im(P), then P is an orthogonal Projection. Homework Equations Orthogonal projections have the following properties: 1) Im(P) = U 2) Ker(P) = Uperp 3) v - P(v)...
  37. J

    What are projections for? When do we need to use them?

    [SOLVED] What are projections for? When do we need to use them? I understand the concept of projections, and I can do problems that require it pretty easily. But I don't get what the applications of projections are? Can anyone tell me some.
  38. E

    Projections of vectors inquiry

    I was wondering if it is possible, in projections, to have a projected onto b equal to zero or undefined. In other words, when does a projected onto b equal zero and when is it undefined?
  39. A

    Vectors - Projections and Components

    I am not sure if I am posting this in the right forum or not. I had impression that there is just no difference between projection of a vector and its components until I took the Statics course. We are following The Engineering Mechanics : Statics book by Meriam and Krage. I got stuck up in...
  40. tony873004

    Prove Vector Projections Perpendicular in R3

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  41. N

    How do I find orthogonal projections on subspaces?

    [SOLVED] Projections on subspaces Homework Statement I have some questions on this topic: 1) If I have an orthonormal basis for a subspace U and I have a vector A, and I want to find the orthogonal projection of A onto U, then I use the expression written here...
  42. C

    Calculate projections of vectors

    Homework Statement Consider the following two vectors v1= (cosx , sinx)(transpose) , v2= (-sinx , cosx)(transpose). Compute the projectors P1, P2 onto the vectors v1 and v2. Homework Equations (a1) (a1*,b1*) (A) <---input (b1) ...(B) This is a matrix that projects on column...
  43. J

    Projections on Banach and Hilbert spaces

    I've now encountered two different definitions for a projection. Let X be a Banach space. An operator P on it is a projection if P^2=P. Let H be a Hilbert space. An operator P on it is a projection if P^2=P and if P is self-adjoint. But the Hilbert space is also a Banach space, and there's...
  44. L

    Finding the Orthogonal Projection of a Vector onto Another Vector

    Given: \vec A \cdot \vec B = non zero and \theta does not equal 0 I can't seem to prove that Vector B minus the Projection of B onto A makes the orthogonal projection of B onto A. Can you help?
  45. S

    What Do Colors and Shapes Represent in Stereographic Projections?

    Hello, Can anyone tell me what the triangles, squares, and ovals mean in the projection on page 19? Does this have something to do with the directions for the third axis? On the next page several of the symbols are black. What significance does this have, also? Thanks -scott "[PLAIN...
  46. T

    Symmetric matrices and orthogonal projections

    Homework Statement Consider a symmetric n x n matrix A with A² = A. Is the linear transformation T(x) = Ax necessarily the orthogonal projection onto a subspace IR^n? Homework Equations The Attempt at a Solution No idea what thought to begin with.
  47. T

    Gutzwiller Projections: What Are They & How to Use Them

    Hi guys, Could anyone give me any information on Gutzwiller Projections? What exactly is it, and why is it needed? I guess i am saying, what does it mean to Gutzwiller project a wavefunction, and how do you go about such a process? I have searched around but i have been getting bogged down...
  48. C

    Constant Projections: Parabolic Trajectory - Accel.

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  49. G

    Medical Is There a Scientific Explanation for OBEs and Astral Projections?

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  50. D

    Can holographic projections change your appearance?

    Would it be possible to use holographic projections to make you look like something else? I mean, for example, could you project an image onto your body (With like a hand-held projector) to make you look like a different thing?
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