53 Sentences With "cuboids" | Random Sentence Generator

A CubeSat can be anything a customer wants to launch that will fit inside one of a number of standard cuboids.

Since then, the chef has become one of the only cuboids on the site with a queue consistently out of the door.

That way, you'll probably end up with duck tots—sturdy potato cuboids burnished beyond golden, tossed in duck fat, aioli on the side—which are all you really need.

Cuboids can be produced from both two-dimensional and three-dimensional images. One method used to produce cuboids utilizes scene understanding (SUN) primitive databases, which are collections of pictures that already contain cuboids. By sorting through SUN primitive databases with machine learning tools, computers observe the conditions in which cuboids are produced in images from SUN primitive databases and can learn to produce cuboids from other images. RGB-D images, which are RGB images that also record the depth of each pixel, are occasionally used to produce cuboids because computers no longer need to determine the depth of an object, as they typically do because depth is already recorded.

Determine the minimum number of cuboid containers (bins) that are required to pack a given set of item cuboids (3 Dimensional rectangles). The rectangular cuboids to be packed can be rotated by 90 degrees on each axis.

Cuboids are created for point cloud-based three-dimensional maps and can be utilized in various situations such as augmented reality, the automated control of cars, drones, and robots, and object detection. Cuboids allow for software to identify a scene through geometric descriptions in an “object- agnostic” fashion. Interest points, locations within images that are identified by a computer as essential to identifying the image, created from two-dimensional images can be used with cuboids for image matching, identifying a room or scene, and instance recognition. Interest points created from three dimensional images can be used with cuboids to recognize activities.

A skewed grid is a tessellation of parallelograms or parallelepipeds. (If the unit lengths are all equal, it is a tessellation of rhombi or rhombohedra.) A curvilinear grid or structured grid is a grid with the same combinatorial structure as a regular grid, in which the cells are quadrilaterals or [general] cuboids, rather than rectangles or rectangular cuboids.

Inspiration for 3D Slash came from kids playing on Minecraft and the easy way they develop sophisticated 3D models without noticing it. However, 3D Slash is specifically meant for designing 3D printable objects, in relation with the stone-cutter metaphor. Therefore, it provides an original 3D Slash toolset such as : \- the hammer (to remove a cuboid) \- the trowel (to add a cuboid) \- the chisel (to remove slices of cuboids) \- the brush (to set the color of cuboids) \- the wood filler (to add a slice of cuboids) \- the milling machine (to remove adjacent cuboids volume) \- picture projection on cuboid (to help cutting your object out according to the picture shape) 3D Slash app offers complementary advanced tools : \- complex geometrical shapes to handle (cylinder, sphere or cone) \- the bucket (to fill in with cuboid an identified volume) \- cut / copy / paste functions \- Therefore, curved shapes (cylinder, sphere, cone) are also approximated by the small cuboids of the octree. 3D Slash particularity is also based on its .STL files (standard 3D Printing file format) import / export function.

Cuboid production is sensitive to changes in color and illumination, blockage, and background clutter. This means that it is difficult for computers to produce cuboids of objects that are multicolored, irregularly illuminated, or partially covered, or if there are many objects in the background. This is partially due to the fact that algorithms for producing cuboids are still relatively simple.

The most commonly encountered full-sphere systems are cubes or rectangular cuboids. The same localisation trade-offs apply as for square vs. rectangle (see above). Cuboids are easily fit into standard rooms and provide precise localisation in first order for a single listener plus enjoyable envelopment for one or two more, and they can be built using off-the shelf 7.1 components.

In 3-dimensional space, algorithms are known for finding a largest maximal empty isothetic cuboid problem, as well as for enumeration of all maximal isothetic empty cuboids.

The same position vector x represented in two 3d rectangular coordinate systems each with an orthonormal basis, the cuboids illustrate the parallelogram law for adding vector components.

The set would then require n colors, or n+1 if you consider the empty space that also touches every rod. The number n can be taken to be any integer, as large as desired. Such examples were known to Fredrick Guthrie in 1880 . Even for axis-parallel cuboids (considered to be adjacent when two cuboids share a two-dimensional boundary area) an unbounded number of colors may be necessary (; ).

KICC Specs, 7 April 2013. The building's light terracotta façade reflects traditional African architecture, as does the use of simple solid shapes- cuboids make up the Plenary hall, the tower consists of a cylinder composed of several cuboids and the amphitheatre and helipad both resemble cones.KICC Façade, 7 April 2013. There are several well-equipped conference and meeting rooms with the largest having a capacity over 4,000 delegates.

The cuboids are added in a sequence that adds to the face in the positive y direction, then the positive x direction, then the positive z direction. This is followed by cuboids added in the negative y, negative x and negative z directions. Each new cuboid added has a length and width that matches the length and width of the face being added to. The height of the nth added cuboid is the nth Padovan number.

BGO crystals are also used in positron emission tomography detectors. Commercially available crystals are grown by the Czochralski process and usually supplied in the form of cuboids or cylinders. Large crystals can be obtained.

The conjectures 1, 2, and 3 are related to the perfect cuboid problem. Though they are not equivalent to the perfect cuboid problem, if all of these three conjectures are valid, then no perfect cuboids exist.

It is mainly underground, with two cuboids rising up from below. While the walls are of other substances, glass is used extensively in the roof portion of the building. The central reading room extends two stories underground.

Of the buildings built in the Seventies, the KICC was the most eco-friendly and most environmentally conscious structure; its main frame was constructed with locally available materials gravel, sand, cement and wood, and it had wide open spaces which allowed for natural aeration and natural lighting. Cuboids made up the plenary hall, the tower consisted of a cylinder composed of several cuboids, and the amphitheater and helipad both resembled cones. The tower was built around a concrete core and it had no walls but glass windows, which allowed for maximum natural lighting. It had the largest halls in eastern and central Africa.

A spiral can be formed based on connecting the corners of a set of 3-dimensional cuboids. This is the Padovan cuboid spiral. Successive sides of this spiral have lengths that are the Padovan sequence numbers multiplied by the square root of 2.

In tiling or tessellation problems, there are to be no gaps, nor overlaps. Many of the puzzles of this type involve packing rectangles or polyominoes into a larger rectangle or other square-like shape. There are significant theorems on tiling rectangles (and cuboids) in rectangles (cuboids) with no gaps or overlaps: :An a × b rectangle can be packed with 1 × n strips iff n divides a or n divides b. :de Bruijn's theorem: A box can be packed with a harmonic brick a × a b × a b c if the box has dimensions a p × a b q × a b c r for some natural numbers p, q, r (i.e.

Homemade Ciba Cake Ciba (; pinyin: cíbā; "ba" means cake), also known as nianba ("nian" means New Year), is a traditional Chinese snack made by glutinous rice pounded into paste. It's often molded into shapes of balls or cuboids. Ciba is often fried or steamed before being served.

Hildegard Reeh In 2000, Schrader presented a group of works titled Cubes and Trees in the park of Schloss Agathenburg. Here, the cubes and cuboids were simply conceived as bare skeleton models made of wood or aluminium. The objects can be seen through and reduce the objects’ materiality.

Bigalow, Robert 1984. "Through the Looking Glass", Dragon 205:114–122 (May 1994). In addition to metal miniatures, manufacturers offer figures in plastic (polyethylene or hard polystyrene) and resin. Some wargames use box miniatures, consisting of card stock folded into simple cuboids with representative art printed on the outside.

HeeksCAD is a free software Computer-aided design program written in C++. It uses Open CASCADE Technology internally for the modelling and wxWidgets as its widget toolkit. HeeksCAD supports cuboids, spheres, cylinders and cones as basic 3D solids. Further geometric objects may be created by sweeping or connecting 2D-shapes.

In aluminium alloys containing magnesium, magnesium oxides (MgO), cuboids (MgAl2O4-cuboid) and metallurgical spinel (MgAl2O4-spinel) can form. They result from the reaction between magnesium and oxygen in the melt. More of them will form with time and temperature. Spinel can be highly detrimental because of its big size and high hardness.

This shape has been used as a test case for hexahedral mesh generation,..... simplifying an earlier test case posited by mathematician Robert Schneiders in the form of a square pyramid with its boundary subdivided into 16 quadrilaterals. In this context the tetragonal trapezohedron has also been called the cubical octahedron, quadrilateral octahedron, or octagonal spindle, because it has eight quadrilateral faces and is uniquely defined as a combinatorial polyhedron by that property. Adding four cuboids to a mesh for the cubical octahedron would also give a mesh for Schneiders' pyramid. As a simply-connected polyhedron with an even number of quadrilateral faces, the cubical octahedron can be decomposed into topological cuboids with curved faces that meet face-to-face without subdividing the boundary quadrilaterals,.

Issue 199 (Vol. 28 No. 3). p. 4. April 2004. Many cuboids are based on 4×4×4 or 5×5×5 mechanisms, via building plastic extensions or by directly modifying the mechanism. Some custom puzzles are not derived from any existing mechanism, such as the Gigaminx v1.5-v2, Bevel Cube, SuperX, Toru, Rua, and 1×2×3.

The famous "Roman nymphaeum" The inner walls consist of four layers of massive, roughly hewn cuboids up to the vault. The top layer is completed by an unfinished cornice. At the rear end there is a slightly raised platform as Adyton. In the small semicircular niche on the back wall there must have been an image of the deity.

The stage design featured a series of sunken trenches created by rows of white cuboids that extended the width of the stage and rose to chest height, and a suspended walkway above. The choreography was by Ken Roht, who had previously worked with Reza Abdoh and became a frequent collaborator of Counts’ in the years following.

The bottom of a goal post is recommended to be padded to protect players from injury. At professional level, these pads are usually cuboids that encase each post. A corner post is placed at the points where each touch line meets each goal line.RLIF, 2004: 4 The post must consist of non-rigid material and should be at least in height.

The software starts from a primary cuboid (i.e. including form) and manages the related arborescence in which each cuboid is either full, either empty or subdivided in 8 cuboids. An arbitrary color can be attached to any full cuboid. The octree model enables the software to implicitly define the level of details (LOD) by cutting the octree according to an arbitrary depth.

The red and blue diodes form optical cuboids with the white lights loosely and irregularly spread around them. The LEDs are controlled by a series of connection units which enables the individual regulation of the colours and the degrees of brightness of the LEDs. Silver-coloured skirting boards join the wallpaper to the floor and hide the technical equipment behind them.

The apartment buildings are in the shape of rectangular cuboids. Note: This includes Park Towne Place is owned by Aimco, a publicly traded real estate investment trust. In 2014, Aimco selected Tryba Architects of Denver to renovate the complex. Park Towne Place was added to the National Register of Historic Places in 2011, and receives a significant tax abatement as a consequence.

After demolition and reconstruction, Block 15 became part of Ping Tin Estate. Building structure of Lam Tin Estate's blocks is standardised by the government. As types 3, 4 and 6 buildings, the 23 towers of Lam Tin Estate were shaped as cuboids and resembled candy-boxes standing on a knoll.Yeung (2006), Page 20 Most buildings were 16-storeys high and housed about 800 units.

Rubik's Domino Rubik's Domino is a hand-held puzzle similar to a Rubik's Cube. However, it has one layer removed, making it a 2×3×3 cuboid. The 3×3 faces can be turned 90-degrees as normal, but the 2×3 faces can only be turned 180 degrees. Other cuboids of 2×2×n (if n is an even number) will solve like multiple dominoes at once.

A rotating penrose triangle model to show illusion The tribar appears to be a solid object, made of three straight beams of square cross- section which meet pairwise at right angles at the vertices of the triangle they form. The beams may be broken, forming cubes or cuboids. This combination of properties cannot be realized by any three-dimensional object in ordinary Euclidean space. Such an object can exist in certain Euclidean 3-manifolds.

The Tower was finally completed in December 2003. The Tower was built using the "top-down" technology, with both the over- and underground parts of the structure being constructed simultaneously. During the excavation for the foundation of the Tower, a 580 kg artillery shell from World War II was discovered 8 metres below ground level. The Tower was designed by architects from Apar-Projekt and Arca A&C; bureaus, and consists of a composition of cylinders and cuboids.

In this approach, the domain is discretized into smaller elements, often triangles or tetrahedra, but other elements such as rectangles or cuboids are possible. The solution space is then approximated using so called form-functions of a pre-defined degree. The differential equation containing the Laplace operator is then transformed into a variational formulation, and a system of equations is constructed (linear or eigenvalue problems). The resulting matrices are usually very sparse and can be solved with iterative methods.

Alpha Tower, designed by Birmingham-born George Marsh of R. Seifert and Partners, 1973. Demand for offices had changed since the Victorian era with large office blocks being preferred by companies over small office buildings. Highrise office blocks offering large floorplates were constructed in city centre in the form of basic shapes such as cuboids. 'Big Top' was completed in the late 1950s and became the city's tallest office building and the first shopping centre in Birmingham.

Visual proof of De Bruijn's theorem that a 6×6×6 box cannot be fully filled with 1×2×4 cuboids: each cuboid occupies exactly 4 white and 4 black cubes, but there are more white than black cubes Mathematics Magazine and the College Mathematics Journal run a regular feature titled "Proof without words" containing, as the title suggests, proofs without words. The Art of Problem Solving and USAMTS websites run Java applets illustrating proofs without words.

By Euler's formula the numbers of faces F, of vertices V, and of edges E of any convex polyhedron are related by the formula F + V = E + 2\. In the case of a cuboid this gives 6 + 8 = 12 + 2; that is, like a cube, a cuboid has 6 faces, 8 vertices, and 12 edges. Along with the rectangular cuboids, any parallelepiped is a cuboid of this type, as is a square frustum (the shape formed by truncation of the apex of a square pyramid).

3D Slash algorithm computes the mesh approximation thanks to the octree's cuboids (import) and the reverse operation for the export (computation of the octree's mesh envelope). 3D Slash enables community links with the possibility to share, like and re-use 3D designs among members. Printing is directly possible thanks to commercial partnerships. 3D Slash provides a 3D modeling unique solution for non-designer mass-market audience, ages from 5 to 95, matching together creativity seeks, Do it yourself trends and their concrete production thanks to 3D Printing.

A Cartesian grid is a special case where the elements are unit squares or unit cubes, and the vertices are points on the integer lattice. A rectilinear grid is a tessellation by rectangles or rectangular cuboids (also known as rectangular parallelepipeds) that are not, in general, all congruent to each other. The cells may still be indexed by integers as above, but the mapping from indexes to vertex coordinates is less uniform than in a regular grid. An example of a rectilinear grid that is not regular appears on logarithmic scale graph paper.

A solution to Hoffman's packing puzzle with exploded to show Hoffman's packing puzzle is an assembly puzzle named after Dean G. Hoffman, who described it in 1978. The puzzle consists of 27 identical rectangular cuboids, each of whose edges have three different lengths. Its goal is to assemble them all to fit within a cube whose edge length is the sum of the three lengths. writes that the first person to solve the puzzle was David A. Klarner, and that typical solution times can range from 20 minutes to multiple hours.

The western end of the courtyard is delimited by the ' (hall). It constitutes the real main and residential building of the castle and contains the King's stateroom and the servants' rooms. The is a colossal five-story structure in the shape of two huge cuboids that are connected in a flat angle and covered by two adjacent high gable roofs. The building's shape follows the course of the ridge. In its angles there are two stair towers, the northern one surmounting the palace roof by several storeys with its height of 65 metres (213 ft).

Church created using 3D Construction Kit Incentive Software had released games using the Freescape engine before, but with 3D Construction Kit, the company took the concept to a whole new level, giving users the ability to create their own worlds and games. In 3D Construction Kit, interaction with the world is usually limited to a cursor controlled with the keyboard, offering the possibility of interaction with nearby objects. The kit has a very simple graphical user interface, allowing users to create and manipulate objects within the game's 3D environment. Primitives such as cubes, cuboids and pyramids can be easily created and edited to be scaled and placed on the 3D world.

Cubes and cuboids of uranium produced during the Manhattan project A team led by Enrico Fermi in 1934 observed that bombarding uranium with neutrons produces the emission of beta rays (electrons or positrons from the elements produced; see beta particle). The fission products were at first mistaken for new elements with atomic numbers 93 and 94, which the Dean of the Faculty of Rome, Orso Mario Corbino, christened ausonium and hesperium, respectively. The experiments leading to the discovery of uranium's ability to fission (break apart) into lighter elements and release binding energy were conducted by Otto Hahn and Fritz Strassmann. in Hahn's laboratory in Berlin.

The machines can produce a variety of topologies that were more difficult or impossible to create with knitting machines before, including: connected tubes, circles, open cuboids, and even spheres (for helmet shells and other preforms). Complete garment knitting requires two needle beds for three- dimensional structures (such as clothing). As is the case with all fully fashioned knitting, machines require individual single needle selection (through electronic control) and presser feet (to hold down formed loops). Note: Aspects of complete garment knitting such as changing the fabric width or diameter and connecting two sides of the structure together are also possible with a single needle bed for two-dimensional or 'flat' structures—and are achieved by: # Changing knit structure (e.g.

Art can exemplify logical paradoxes, as in some paintings by the surrealist René Magritte, which can be read as semiotic jokes about confusion between levels. In La condition humaine (1933), Magritte depicts an easel (on the real canvas), seamlessly supporting a view through a window which is framed by "real" curtains in the painting. Similarly, Escher's Print Gallery (1956) is a print which depicts a distorted city which contains a gallery which recursively contains the picture, and so ad infinitum. Magritte made use of spheres and cuboids to distort reality in a different way, painting them alongside an assortment of houses in his 1931 Mental Arithmetic as if they were children's building blocks, but house-sized.

The palace can be regarded as typical for nineteenth-century architecture. The shapes of Romanesque (simple geometric figures such as cuboids and semicircular arches), Gothic (upward-pointing lines, slim towers, delicate embellishments) and Byzantine architecture and art (the Throne Hall décor) were mingled in an eclectic fashion and supplemented with 19th-century technical achievements. The Patrona Bavariae and Saint George on the court face of the (main building) are depicted in the local Lüftlmalerei style, a fresco technique typical for Allgäu farmers' houses, while the unimplemented drafts for the Knights' House gallery foreshadow elements of Art Nouveau. Characteristic of Neuschwanstein's design are theatre themes: Christian Jank drew on coulisse drafts from his time as a scenic painter.

The aim is to pack 27 cuboids with side lengths A, B, C into a box of side length A+B+C, subject to two constraints: :1) A, B, C must not be equal :2) The smallest of A, B, C must be larger than (A+B+C)/4 One possibility would be A=18, B=20, C=22 – the box would then have to have the dimensions 60×60×60. Modern tools such as laser cutters allow the creation of complex two-dimensional puzzles made of wood or acrylic plastic. In recent times this has become predominant and puzzles of extraordinarily decorative geometry have been designed. This makes use of the multitude of ways of subdividing areas into repeating shapes.

The weight of the first phase walls up to is . During the second phase (1879–1884), the walls were constructed of smoothly dressed (ashlar) large marble and granite blocks (rectangular cuboids) laid down in an orderly manner (Flemish bond) with thick joints. Two-foot high marble surface stones, using an equal number of stretchers and headers, were backed by granite blocks from the 152-foot level (the first course above the rubble) to the 218-foot level, where marble headers become increasingly visible on the internal surface of the walls up to the 450-foot level, above which only marble stones are used. Between the 150- and 160-foot levels the inner walls rapidly slope outward, increasing the shaft well from 25 feet 1 inch square to square with a corresponding decrease in the thickness of the walls and their weight.