Aurelia

Aurelia (also spelled Aurélia or Aurelija) is a feminine given name from the Latin family name Aurelius, which was derived from aureus meaning "golden". The name began from minor early saints but was given as a name due to its meaning, and not from where it originated. Aurelia may refer to:

Ancient and medieval ages

Modern

Aurelia (gens)

The gens Aurelia was a plebeian family at Rome. The first member of the gens who obtained the consulship was Gaius Aurelius Cotta in 252 BC, from which time the Aurelii become distinguished in history down to the end of the Republic. The Aurelii flourished under the Empire, and many later families of citizens enrolled under the authority of Emperors or magistrates bearing this nomen were also called Aurelius. The name became so common that it was sometimes abbreviated Aur., and by the latter centuries of the Empire it becomes difficult to distinguish members of the gens from other persons bearing the name.

Praenomina

The praenomina used by the Aurelii during the Republic were Gaius, Lucius, Marcus, and Publius. The Aurelii Orestides also used the praenomen Gnaeus. In imperial times, the Aurelii Fulvi used Titus, Marcus, and Lucius, while the Aurelii Symmachi used Quintus and Lucius.

Origin

The nomen Aurelius is usually connected with the Latin adjective aureus, meaning "golden", and may have referred to the color of a person's hair. However, the original form of the nomen may have been Auselius, much as the original forms of the nomina Furia, Numeria, Papiria, Valeria, and Veturia were Fusia, Numisia, Papisia, Valesia, and Vetusia. In this case, it may be derived from a name for the sun, although that too may share a common etymology with aureus.

Aurelia (disambiguation)

Aurelia is a feminine given name.

Aurelia may also mean:

Science

Places

Arts and entertainment

Cho

Cho may refer to:

Surnames

Given name

Aldehyde

An aldehyde /ˈældᵻhaɪd/ or alkanal is an organic compound containing a formyl group. The formyl group is a functional group, with the structure R-CHO, consisting of a carbonyl center (a carbon double bonded to oxygen) bonded to hydrogen and an R group, which is any generic alkyl or side chain. The group without R is called the aldehyde group or formyl group. Aldehydes differ from ketones in that the carbonyl is placed at the end of a carbon skeleton rather than between two carbon atoms. Aldehydes are common in organic chemistry. Many fragrances are aldehydes.

Structure and bonding

Aldehydes feature an sp²-hybridized, planar carbon center that is connected by a double bond to oxygen and a single bond to hydrogen. The C-H bond is not acidic. Because of resonance stabilization of the conjugate base, an α-hydrogen in an aldehyde (not shown in the picture above) is far more acidic, with a pKa near 17, than a C-H bond in a typical alkane (pKa about 50). This acidification is attributed to (i) the electron-withdrawing quality of the formyl center and (ii) the fact that the conjugate base, an enolate anion, delocalizes its negative charge. Related to (i), the aldehyde group is somewhat polar.

Cubohemioctahedron

In geometry, the cubohemioctahedron is a nonconvex uniform polyhedron, indexed as U₁₅. Its vertex figure is a crossed quadrilateral.

It is given Wythoff symbol 4/3 4 | 3, although that is a double-covering of this figure.

A nonconvex polyhedron has intersecting faces which do not represent new edges or faces. In the picture vertices are marked by golden spheres, and edges by silver cylinders.

It is a hemipolyhedron with 4 hexagonal faces passing through the model center. The hexagons intersect each other and so only triangle portions of each are visible.

Related polyhedra

It shares the vertex arrangement and edge arrangement with the cuboctahedron (having the square faces in common), and with the octahemioctahedron (having the hexagonal faces in common).

Tetrahexagonal tiling

The cubohemioctahedron can be seen as a net on the hyperbolic tetrahexagonal tiling with vertex figure 4.6.4.6.

Hexahemioctacron

The hexahemioctacron is the dual of the cubohemioctahedron, and is one of nine dual hemipolyhedra. It appears visually indistinct from the octahemioctacron.