The reason for the spherical shape of oil in water is to be determined. Concept introduction: The various kinds of interactions that bind a molecule are known as intermolecular forces. These can be forces of dispersion, dipole–dipole, ion–dipole, and hydrogen bonding. Dispersion forces present in every molecule due to the presence of electron. Dipole–dipole is the attractive force between opposite end of polar molecule. Hydrogen bonding is the attractive force between hydrogen attached to an electronegative atom of one molecule and an electronegative atom of different molecule. Ion–dipole force is the attractive force that due to electrostatic attraction between an ion and a neutral molecule. The phenomenon by which a liquid tends to minimize its surface area is called surface tension. The cause for surface tension is intermolecular forces. An example of this phenomenon is a drop of water or soap bubble.
The reason for the spherical shape of oil in water is to be determined. Concept introduction: The various kinds of interactions that bind a molecule are known as intermolecular forces. These can be forces of dispersion, dipole–dipole, ion–dipole, and hydrogen bonding. Dispersion forces present in every molecule due to the presence of electron. Dipole–dipole is the attractive force between opposite end of polar molecule. Hydrogen bonding is the attractive force between hydrogen attached to an electronegative atom of one molecule and an electronegative atom of different molecule. Ion–dipole force is the attractive force that due to electrostatic attraction between an ion and a neutral molecule. The phenomenon by which a liquid tends to minimize its surface area is called surface tension. The cause for surface tension is intermolecular forces. An example of this phenomenon is a drop of water or soap bubble.
Solution Summary: The author explains that the spherical shape of oil in water is determined by intermolecular forces, which are present in every molecule due to the presence of electrons.
The reason for the spherical shape of oil in water is to be determined.
Concept introduction:
The various kinds of interactions that bind a molecule are known as intermolecular forces. These can be forces of dispersion, dipole–dipole, ion–dipole, and hydrogen bonding.
Dispersion forces present in every molecule due to the presence of electron.
Dipole–dipole is the attractive force between opposite end of polar molecule.
Hydrogen bonding is the attractive force between hydrogen attached to an electronegative atom of one molecule and an electronegative atom of different molecule.
Ion–dipole force is the attractive force that due to electrostatic attraction between an ion and a neutral molecule.
The phenomenon by which a liquid tends to minimize its surface area is called surface tension.
The cause for surface tension is intermolecular forces. An example of this phenomenon is a drop of water or soap bubble.
Name the major organic product of the following action of 4-chloro-4-methyl-1-pentanol in neutral pollution
10+
Now the product. The product has a molecular formula f
b. In a singly hain, the starting, material again converts into a secule with the molecular kormula CIO. but with
comply
Draw the major organic structure inhalation
Macmillan Learning
Alcohols can be oxidized by chromic acid derivatives. One such reagent is pyridinium chlorochromate, (C,H,NH*)(CICTO3),
commonly known as PCC. Draw the proposed (neutral) intermediate and the organic product in the oxidation of 1-butanol by
PCC when carried out in an anhydrous solvent such as CH₂C₁₂.
PCC
Intermediate
OH
CH2Cl2
Draw the intermediate.
Select Draw Templates More
с H Cr
о
Product
Draw the product.
Erase
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H
о
Erase
If I have 1-bromopropene, to obtain compound
A, I have to add NaOH and another compound.
Indicate which compound that would be.
A
C6H5 CH3