hand hole - definição. O que é hand hole. Significado, conceito
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O que (quem) é hand hole - definição

CONCEPTUAL AND MATHEMATICAL OPPOSITE OF AN ELECTRON
Electron holes; Hole (quasiparticle); Electron-hole; Hole conduction; Hole theory of electrons; Hole (semiconductor); Hole (electricity)
  • A children's puzzle which illustrates the mobility of holes in an atomic lattice. The tiles are analogous to electrons, while the missing tile ''(lower right corner)'' is analogous to a hole.  Just as the position of the missing tile can be moved to different locations by moving the tiles, a hole in a crystal lattice can move to different positions in the lattice by the motion of the surrounding electrons.
  • effective mass]]. The "filled band" is the semiconductor's [[valence band]]; it curves downward indicating negative effective mass.

Hand in Hand (beFour song)         
BEFOUR SONG
Hand in Hand (beFour Song)
"Hand In Hand" is the first single taken from beFour's second studio album "Hand In Hand," in Germany, Austria and Switzerland. As of December 22, 2007 the song had officially entered the German Singles Chart.
Hand in Hand (Olympic theme song)         
SONG
Hand in Hand (Olympics)
"Hand in Hand" () is a song by South Korean band Koreana that was the official song of the 1988 Summer Olympics in Seoul. It was sung in both Korean and English.
Through-hole technology         
  • A box of [[drill bit]]s used for making holes in printed circuit boards. While tungsten-carbide bits are very hard, they eventually wear out or break. Making holes is a considerable part of the cost of a through-hole printed circuit board.
  • Axial- (top) and radial- (bottom) leaded [[electrolytic capacitor]]s
  • Components like [[integrated circuit]]s can have upwards of dozens of leads, or ''pins''
  • Through-hole devices mounted on the circuit board of a mid-1980s [[home computer]]. Axial-lead devices are at upper left, while blue radial-lead capacitors are at upper right
MOUNTING SCHEME USED FOR ELECTRONIC COMPONENTS THAT INVOLVES THE USE OF LEADS ON THE COMPONENTS THAT ARE INSERTED INTO HOLES DRILLED IN PRINTED CIRCUIT BOARDS AND SOLDERED TO PADS ON THE OPPOSITE SIDE MANUALLY OR BY AUTOMATED INSERTION MOUNT MACHINES
Through-hole; Thru-hole; Plated through hole; Plated-through hole; Plated through-hole; Axial-lead; Radial-lead; Non-plated through-hole; Non-plated through hole; NPTH; Non-Plated Through-Hole; Non Plated Through Hole; Plated Through-Hole; Plated Through Hole; Metallized through hole; Metallized through-hole; Metallized hole; Metallised through hole; Metallised through-hole; Metallised hole; Metalized through hole; Metalized through-hole; Metalized hole; Metalised through hole; Metalised through-hole; Metalised hole
Through-hole technology (also spelled "thru-hole"), refers to the mounting scheme used for electronic components that involves the use of leads on the components that are inserted into holes drilled in printed circuit boards (PCB) and soldered to pads on the opposite side either by manual assembly (hand placement) or by the use of automated insertion mount machines.

Wikipédia

Electron hole

In physics, chemistry, and electronic engineering, an electron hole (often simply called a hole) is a quasiparticle denoting the lack of an electron at a position where one could exist in an atom or atomic lattice. Since in a normal atom or crystal lattice the negative charge of the electrons is balanced by the positive charge of the atomic nuclei, the absence of an electron leaves a net positive charge at the hole's location.

Holes in a metal or semiconductor crystal lattice can move through the lattice as electrons can, and act similarly to positively-charged particles. They play an important role in the operation of semiconductor devices such as transistors, diodes and integrated circuits. If an electron is excited into a higher state it leaves a hole in its old state. This meaning is used in Auger electron spectroscopy (and other x-ray techniques), in computational chemistry, and to explain the low electron-electron scattering-rate in crystals (metals and semiconductors). Although they act like elementary particles, holes are rather quasiparticles; they are different from the positron, which is the antiparticle of the electron. (See also Dirac sea.)

In crystals, electronic band structure calculations lead to an effective mass for the electrons that is typically negative at the top of a band. The negative mass is an unintuitive concept, and in these situations, a more familiar picture is found by considering a positive charge with a positive mass.