The gas that behaves less ideally out of CH 4 or SO 2 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. The basic assumption for an ideal gas is that it is free from intermolecular forces. 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 gas that behaves less ideally out of CH 4 or SO 2 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. The basic assumption for an ideal gas is that it is free from intermolecular forces. 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.
Solution Summary: The author explains that the gas that behaves less ideally out of CH_4's tetrahedral shape is to be determined.
The gas that behaves less ideally out of CH4 or SO2 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. The basic assumption for an ideal gas is that it is free from intermolecular forces.
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.
PLEASE READ!!! I DONT WANT EXAMPLES, I DONT WANT WORDS OR PARAGRAPHS FOR THE MECHANISM!!! THANKS
First image: QUESTION 6. I have to show, with ARROWS and STRUCTURES, the mechanism of the reaction at the bottom. Also I have to show by mecanism why the reaction wouldn't work if the alcohol was primary.
I also tried to draw the mechanism, tell me what to change. Please note that its an AMIDE thats formed not an AMINE the nitrogen has ONE hydrogen and one Phenyl-C-Phenyl. I already asked for this mechanism and got as a final product ...-NH2 not whats shown on the picture, thank you
Ths second part. QUESTION 3. I just need a way to synthesize the lactone A, I already started please continue from where I left it
Second image: I simply need the products, substrates or reagents, thank you
Indicate how to prepare a 10% sodium hydroxide (NaOH) solution to a slightly alkaline pH.
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