A life of Surveyor

Sebuah kalimat sederhana yang muncul dibenak saya sebagai penulis, "Apakah yang saya lihat selama ini adalah sebuah kejadian yang muncul saat itu juga, ataukah sebuah masa lalu, atau bahkan masa depan.

Lagi lagi semua yang ada didunia berkaitan dengan waktu, tapi apakah anda pernah menyadari bahwa yang anda lihat adalah sebuah masa lalu?

Mungkin anda sudah banyak yang mengetahuinya, dan ada juga yang belum mengetahuinya, tapi apakah mungkin yang kita lihat adalah sebuah masa lalu? Mungkin !

Okay langsung saja ke pokok permasalahannya

Apakah kalian sering melihat bintang saat malam hari?

Apakah kaitan antara bintang dan waktu? apakah ada kaitannya? ataukah hanya sekedar omong kosong. Baiklah kali ini saya akan membahas keterkaitan antara bintang dan waktu.

To be Continue

Ellipsoid is an rotated ellipse, Ellipsoid used for models to put a point on the earth's surface (Earth Mathematics Model)

Ellipsoid Circular Section

An ellipsoid is a closed quadric surface that is a three-dimensional analogue of an ellipse. The standard equation of an ellipsoid centered at the origin of a Cartesian coordinate system and aligned with the axes is

Generalised equations

More generally, an arbitrarily oriented ellipsoid, centered at v, is defined by the solutions x to the equation

where A is a positive definite matrix and x, v are vectors.

The eigenvectors of A define the principal axes of the ellipsoid and the eigenvalues of A are the reciprocals of the squares of the semi-axes:

a^{-2}

b^{-2}

and

c^{-2}

.^[1] An invertible linear transformation applied to a sphere produces an ellipsoid, which can be brought into the above standard form by a suitable rotation, a consequence of the polar decomposition (also, see spectral theorem). If the linear transformation is represented by a symmetric 3-by-3 matrix, then the eigenvectors of the matrix are orthogonal (due to the spectral theorem) and represent the directions of the axes of the ellipsoid: the lengths of the semiaxes are given by the eigenvalues. The singular value decomposition andpolar decomposition are matrix decompositions closely related to these geometric observations.

Parameterization

The surface of the ellipsoid may be parameterized in several ways. One possible choice which singles out the 'z'-axis is:

where

The parameters may be interpreted as spherical coordinates. For constant u, that is on the ellipse which is the intercept with a constant z plane, v then plays the role of the eccentric anomaly for that ellipse. For constant v on a plane through the Oz axis the parameter u plays the same role for the ellipse of intersection. Two other similar parameterizations are possible, each with their own interpretations. Only on an ellipse of revolution can a unique definition of reduced latitude be made.

Tri-axial ellipsoid with distinct semi-axes a, b and c

Volume and surface area

Volume

The volume of the internal part of the ellipsoid is

V= \frac{4}{3}\pi abc ,\!

Note that this equation reduces to that of the volume of a sphere when all three elliptic radii are equal, and to that of an oblate or prolate spheroid when two of them are equal.

The volume of an ellipsoid is two thirds the volume of a circumscribed elliptic cylinder.

The volumes of the maximum inscribed and minimum circumscribed boxes are respectively:

V_\max =\frac{8}{3\sqrt 3} abc, \qquad V_\min = 8abc.

The volume of an ellipse of dimension higher than 3 can be calculated using the dimensional constant given for the volume of a hypersphere. One can also define ellipsoids in higher dimensions, as the images of spheres under invertible linear transformations. The spectral theorem can again be used to obtain a standard equation akin to the one given above.

Surface area

The surface area of a general (tri-axial) ellipsoid is

S=2\pi c^2+ \frac{2\pi ab}{\sin\phi} \left(E(\phi,k)\, \sin^2\phi + F(\phi,k)\, \cos^2\phi \right),

where

\cos\phi = \frac{c}{a}, \qquad k^2 =\frac{a^2(b^2-c^2)}{b^2(a^2-c^2)}, \qquad a\ge b \ge c,

and where F(φ,k) and E(φ,k) are incomplete elliptic integrals of the first and second kind respectively.

The surface area of an ellipsoid of revolution (or spheroid) may be expressed in terms of elementary functions:

S_{\rm oblate} = 2\pi a^2\left(1+\frac{1-e^2}{e}\tanh^{-1}e\right) \quad\mbox{where}\quad e^2=1-\frac{c^2}{a^2}\quad(c<a),

S_{\rm prolate} = 2\pi a^2\left(1+\frac{c}{ae}\sin^{-1}e\right) \quad\qquad\mbox{where}\;\quad e^2=1-\frac{a^2}{c^2}\quad(c>a),

which, as follows from basic trigonometric identities, are equivalent expressions (i.e. the formula for

S_{\rm oblate}

can be used to calculate the surface area of a prolate ellipsoid and vice versa). In both cases e may again be identified as the eccentricity of the ellipse formed by the cross section through the symmetry axis. (See ellipse). Derivations of these results may be found in standard sources, for example Mathworld.

To be Continue

EDM (Electronic Distance Measurement)

Adalah alat yang digunakan untuk menentukan panjang, menggunakan perubahan fase yang terjadi sebagai energi elektromagnetik yang diketahui panjang gelombangnya. Perjalanan gelombang dari satu ujung garis ke ujung yang lain dan kembali

Gelombang

EDM

Reflektor

Prisma / Reflektor adalah sudut kubus kaca dimana disisi tegak lurus terhadap toleransi yang sangat dekat

Karakteristik Prisma, Jika ada cahaya datang dipantulkan sejajar dengan dirinya sendiri, sehingga kembali ke sumbernya

Prisma/Reflektor

Kesalahan-kesalahan dalam EDM

Kesalahan Operator

Setup akurat EDM dan reflektor atas stasiun
Pengukuran rusak instrument, dan reflektor ketinggian
Kesalahan dalam menentukan tekanan atmosfer suhu dan kelembapan jika microwave instrument yang digunakan

Kesalahan Alat

Kalibrasi
Kesalahan dalam reflektor ( terutama sudut reflektor prisma )
Kesalahan offset konstant dari instrument dan reflektor

Kesalahan Alam

Variasi atmosfer
Pembiasan Sinyal

Biasanya EDM dipakai bersamaan dengan theodolite

Contoh penggunaan EDM

Saat ini EDM sudah jarang atau bahkan tidak digunakan lagi karena EMD sudah discontinue atau tidak diproduksi lagi, Oleh karena itu munculah sebuah alat bernama total station yaitu gabungan dari theodolite dan EDM. Lebih jelasnya nanti akan dibahas mengenai Total Station

Sumber: Materi Perkuliahan

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A life of Surveyor

Generalised equations

Parameterization

Volume and surface area

Volume

Surface area

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