The liqors can act as acids or bases by which the functional group is similar to water, so that a dipole similar to having the water molecule is established. On one hand, if an liqor is faced with a strong base or an alkali metal hydride forms the alkoxy group, where the hydroxyl group is deprotonated leaving negatively charged oxygen (alcohol assessment).
The liqors may be primary, secondary or tertiary, depending on the number of hydrogen atoms substituted on the carbon atom to which they are bound to hydroxyl group. The liqor comes from the Arabic wordof al (determinant) and kuhul meaning 'subtle'. This is because formerly called "spirit" to liqors. For example, "spirits" to ethanol, and "wood spirit" to methanol.
The Arabs knew the extracted wine distilled liqor. However, its discovery dates back to early fourteenth century, attributed to medical Arnau de Villanova, wise alchemist and professor of medicine at Montpellier. The quintessence of Ramon Llull was nothing that liqor grinding to a milder temperature.
Lavoisier was the one who revealed the origin and how to produce liqor through the wine fermentation, showing that under the influence of yeast grape sugar is converted into carbonic acid and liqor. He was also studied by Scheele, Gehle, Thenard, Duma and Boullay Berthelot and in 1854 won it for sintesis.
Common (non-systematic): putting the word liqor and replacing the suffix -ano corresponding alkane. For example would methyl liqor, ethyl liqor, propyl liqor, etc. IUPAC: adding a l (el) to -ano name suffix in hydrocarbon precursor (met-ano-l, where meth indicates a carbon atom, -ano- indicates a hydrocarbon alkane which is -l an liqor), and identifying the position of carbon atom that is bonded to hydroxyl group (3-butanol, for example).
Primary liqor: pyridine (Py) is used to stop the reaction to aldehyde CR03 / H plus is called Jones reagent, and a carboxylic acid is obtained. Secondary liqor: secondary liqors take less time, 5 to 10 minutes because the secondary carbocations are less stable than tertiary.
The solubility of molecule depends on the size and shape of alkyl chain, because as the alkyl chain is longer and more voluminous, the molecule will tend to be more like a hydrocarbon molecule and less water, so be higher solubility in apolar solvents and less polar solvents. Some liqors (mainly aromatic rings and polyhydric) have a higher density than water.
The fact that the hydroxyl group can also form hydrogen bonds affects the melting and boiling points of liqors. Although the hydrogen bond formed is very weak compared to other types of bonds are formed in large numbers between molecules, forming a collective network which hinders the molecules can escape the state in which they are (solid or liquid), thus increasing their melting and boiling points compared to corresponding alkanes. Furthermore, two points are usually far apart, so are often used as components of antifreeze mixtures. For example, 1,2-ethanediol has a melting point of -16 degrees C and a boiling point of 197 degrees C.
The liqors may be primary, secondary or tertiary, depending on the number of hydrogen atoms substituted on the carbon atom to which they are bound to hydroxyl group. The liqor comes from the Arabic wordof al (determinant) and kuhul meaning 'subtle'. This is because formerly called "spirit" to liqors. For example, "spirits" to ethanol, and "wood spirit" to methanol.
The Arabs knew the extracted wine distilled liqor. However, its discovery dates back to early fourteenth century, attributed to medical Arnau de Villanova, wise alchemist and professor of medicine at Montpellier. The quintessence of Ramon Llull was nothing that liqor grinding to a milder temperature.
Lavoisier was the one who revealed the origin and how to produce liqor through the wine fermentation, showing that under the influence of yeast grape sugar is converted into carbonic acid and liqor. He was also studied by Scheele, Gehle, Thenard, Duma and Boullay Berthelot and in 1854 won it for sintesis.
Common (non-systematic): putting the word liqor and replacing the suffix -ano corresponding alkane. For example would methyl liqor, ethyl liqor, propyl liqor, etc. IUPAC: adding a l (el) to -ano name suffix in hydrocarbon precursor (met-ano-l, where meth indicates a carbon atom, -ano- indicates a hydrocarbon alkane which is -l an liqor), and identifying the position of carbon atom that is bonded to hydroxyl group (3-butanol, for example).
Primary liqor: pyridine (Py) is used to stop the reaction to aldehyde CR03 / H plus is called Jones reagent, and a carboxylic acid is obtained. Secondary liqor: secondary liqors take less time, 5 to 10 minutes because the secondary carbocations are less stable than tertiary.
The solubility of molecule depends on the size and shape of alkyl chain, because as the alkyl chain is longer and more voluminous, the molecule will tend to be more like a hydrocarbon molecule and less water, so be higher solubility in apolar solvents and less polar solvents. Some liqors (mainly aromatic rings and polyhydric) have a higher density than water.
The fact that the hydroxyl group can also form hydrogen bonds affects the melting and boiling points of liqors. Although the hydrogen bond formed is very weak compared to other types of bonds are formed in large numbers between molecules, forming a collective network which hinders the molecules can escape the state in which they are (solid or liquid), thus increasing their melting and boiling points compared to corresponding alkanes. Furthermore, two points are usually far apart, so are often used as components of antifreeze mixtures. For example, 1,2-ethanediol has a melting point of -16 degrees C and a boiling point of 197 degrees C.
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