volume ionization - significado y definición. Qué es volume ionization
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Qué (quién) es volume ionization - definición

MINIMUM AMOUNT OF ENERGY REQUIRED TO REMOVE AN ELECTRON FROM AN ATOM OR MOLECULE IN THE GASEOUS STATE
First ionization energy; Ionisation energy; Ionisation enthalpy; Ionization enthalpy; Electron binding energy; Ionization Potential; Second ionization energy; Ionisation potential; Ionization potential; Ionisation energies; Ionization Energy; Ionization energies
  • p-orbital]].
  • Binding energies of specific atomic orbitals as a function of the atomic number. Because of the increasing number of protons, electrons occupying the same orbital are more tightly bound in heavier elements.
  • eV]]. The ionization energy gradually increases from the [[alkali metals]] to the [[noble gas]]es. The maximum ionization energy also decreases from the first to the last row in a given column, due to the increasing distance of the valence electron shell from the nucleus. Predicted values are used for elements beyond 104.
  • potential energy curve]] of the neutral molecule, and the upper curve is for the positive ion with a longer bond length. The blue arrow is vertical ionization, here from the ground state of the molecule to the v=2 level of the ion.
  • Ionization energies peak in noble gases at the end of each period in the periodic table of elements and, as a rule, dip when a new shell is starting to fill.
  • alt=

Volume (finance)         
AMOUNT OF A SECURITY TRADED DURING A PERIOD OF TIME
Trading volume; Volume of trade; Trade volume
In capital markets, volume, or trading volume, is the amount (total number) of a security (or a given set of securities, or an entire market) that was traded during a given period of time. In the context of a single stock trading on a stock exchange, the volume is commonly reported as the number of shares that changed hands during a given day.
Volume         
  • Diagram showing how to measure volume using a graduated cylinder with [[fluid dram]] markings, 1926
  • left
QUANTITY OF THREE-DIMENSIONAL SPACE
Volume measure; Volumes or capacities of other orders of magnitude; Volumes; Volumetric; Volume (geometry); Volume (mathematics); Spatial volume; Volume (unit); Volumetry; Volume of a cone; Liquid capacity; Fluid capacity; Cubic length; List of volume formulas
·noun Amount, fullness, quantity, or caliber of voice or tone.
II. Volume ·noun Anything of a rounded or swelling form resembling a roll; a turn; a convolution; a coil.
III. Volume ·noun A roll; a scroll; a written document rolled up for keeping or for use, after the manner of the ancients.
IV. Volume ·noun Dimensions; compass; space occupied, as measured by cubic units, that is, cubic inches, feet, yards, ·etc.; mass; bulk; as, the volume of an elephant's body; a volume of gas.
V. Volume ·noun Hence, a collection of printed sheets bound together, whether containing a single work, or a part of a work, or more than one work; a book; a tome; especially, that part of an extended work which is bound up together in one cover; as, a work in four volumes.
volume         
  • Diagram showing how to measure volume using a graduated cylinder with [[fluid dram]] markings, 1926
  • left
QUANTITY OF THREE-DIMENSIONAL SPACE
Volume measure; Volumes or capacities of other orders of magnitude; Volumes; Volumetric; Volume (geometry); Volume (mathematics); Spatial volume; Volume (unit); Volumetry; Volume of a cone; Liquid capacity; Fluid capacity; Cubic length; List of volume formulas
n.
loudness
1) to amplify; increase, turn up the volume
2) to decrease, turn down the volume
space occupied in three dimensions
3) molecular volume
book
4) a rare volume
5) a companion volume (this work is a companion volume to our first dictionary)
6) (misc.) to speak volumes ('to imply a lot') (a single glance can speak volumes)

Wikipedia

Ionization energy

In physics and chemistry, ionization energy (IE) (American English spelling), ionisation energy (British English spelling) is the minimum energy required to remove the most loosely bound electron of an isolated gaseous atom, positive ion, or molecule. The first ionization energy is quantitatively expressed as

X(g) + energy ⟶ X+(g) + e

where X is any atom or molecule, X+ is the resultant ion when the original atom was stripped of a single electron, and e is the removed electron. Ionization energy is positive for neutral atoms, meaning that the ionization is an endothermic process. Roughly speaking, the closer the outermost electrons are to the nucleus of the atom, the higher the atom's ionization energy.

In physics, ionization energy is usually expressed in electronvolts (eV) or joules (J). In chemistry, it is expressed as the energy to ionize a mole of atoms or molecules, usually as kilojoules per mole (kJ/mol) or kilocalories per mole (kcal/mol).

Comparison of ionization energies of atoms in the periodic table reveals two periodic trends which follow the rules of Coulombic attraction:

  1. Ionization energy generally increases from left to right within a given period (that is, row).
  2. Ionization energy generally decreases from top to bottom in a given group (that is, column).

The latter trend results from the outer electron shell being progressively farther from the nucleus, with the addition of one inner shell per row as one moves down the column.

The nth ionization energy refers to the amount of energy required to remove the most loosely bound electron from the species having a positive charge of (n − 1). For example, the first three ionization energies are defined as follows:

1st ionization energy is the energy that enables the reaction X ⟶ X+ + e
2nd ionization energy is the energy that enables the reaction X+ ⟶ X2+ + e
3rd ionization energy is the energy that enables the reaction X2+ ⟶ X3+ + e

The most notable influences that determine ionization energy include:

  • Electron configuration: This accounts for most elements' IE, as all of their chemical and physical characteristics can be ascertained just by determining their respective electron configuration.
  • Nuclear charge: If the nuclear charge (atomic number) is greater, the electrons are held more tightly by the nucleus and hence the ionization energy will be greater (leading to the mentioned trend 1 within a given period).
  • Number of electron shells: If the size of the atom is greater due to the presence of more shells, the electrons are held less tightly by the nucleus and the ionization energy will be smaller.
  • Effective nuclear charge (Zeff): If the magnitude of electron shielding and penetration are greater, the electrons are held less tightly by the nucleus, the Zeff of the electron and the ionization energy is smaller.
  • Stability: An atom having a more stable electronic configuration has a reduced tendency to lose electrons and consequently has a higher ionization energy.

Minor influences include:

  • Relativistic effects: Heavier elements (especially those whose atomic number is greater than about 70) are affected by these as their electrons are approaching the speed of light. They therefore have smaller atomic radii and higher ionization energies.
  • Lanthanide and actinide contraction (and scandide contraction): The shrinking of the elements affects the ionization energy, as the net charge of the nucleus is more strongly felt.
  • Electron pairing energies: Half-filled subshells usually result in higher ionization energies.

The term ionization potential is an older and obsolete term for ionization energy, because the oldest method of measuring ionization energy was based on ionizing a sample and accelerating the electron removed using an electrostatic potential.