1.. How is hydrogen bonding involved in cohesive attraction of water molecules?
2.. Water molecules also attract other sorts of molecules, particularly ions. Why is this?
1. Cohesive force refers to the force of
attraction among the molecules of the same kind. The cohesive force
of attraction among water molecules provides the surface tension of
the liquid droplet to hold together. water molecules are slightly
charged and they are able to form numerous hydrogen bonds with the
surrounding water molecules creating a strong cohesive force.
2. A water molecule is polar in nature and is
slightly negative due to the presence of a lone pair of electrons
on the oxygen atoms. Due to this charge distribution water
molecules are able to attract towards itself and forms hydrogen
bonds via electrostatic interaction.
1.. How is hydrogen bonding involved in cohesive attraction of water molecules? 2.. Water molecules also...
2. a. Draw three water molecules interacting with each other. Indicate hydrogen-bonding with dashed lines. Show lone pairs! b. Draw two water molecules interacting with a methanol (CH3OH) molecule through hydrogen-bonding.
What type of intermolecular attraction force exists between molecules with this structures H-N-H hydrogen bonding dipole-dipole o dispersion none of the above
Name Hydrogen Bonding with Water- Your Drug Directions: Show the structure of your molecule below. Ilustrate all ways that your molecule could form hydrogen bonds with water, either as a hydrogen donor or as a target (receiver) of hydrogen bonds from water. Do this by drawing bent water molecules as necessary and representing hydrogen bonds between water and the drug using dashed RED lines (-. Be sure that it is exactly clear which atoms on each molecule are involved in...
For each compound in the table below, decide whether there would be any hydrogen-bonding force between molecules of the compound, or between molecules of the compound and molecules of water.
Name Gdderall Hydrogen Bonding with Water- Your Drug Directions: Show the structure of your molecule below. Ilustrate all ways that your molecule could form hydrogen bonds with water, either as a hydrogen donor or as a target (receiver) of hydrogen bonds from water. Do this by drawing bent water molecules as necessary and representing hydrogen bonds between water and the drug using dashed RED lines are involved in the hydrogen bonds. If your drug molecule is not capable of forming...
anybody? w nat intermolecular forces of attraction are present among two molecules of N-methylethanamine? a. Hydrogen Bonding only b. London Dispersion and Hydrogen Bonding c. Dipole-Dipole and Hydrogen Bonding d. London Dispersion and Dipole-Dipole e. London Dispersion only f. Dipole-Dipole only g. London Dispersion, Dipole-Dipole and Hydrogen Bonding What is the major Organic product of the following sequence of reactions? CI 1) 2 equiv KOH, MOHA 2) disiamylborane, 3) H2O2. NaOH OH CH; (b) OH OP OF H a. a...
Step 6: Hydrogen Bonding with Water (3) Hydrocodone Directions: Draw the structure of your molecule on a separate page. Illustrate all ways that your molecule could form hydrogen bonds with water. Do this by drawing bent water molecules as necessary and use dashed RED lines (---) to show H-bonding between water and the appropriate atom in the molecule. Be sure that it is very clear which atoms on each molecule are involved in the hydrogen bonds. Keep in mind that...
2. Water (H2O) molecules experience dispersion, dipole-dipole and hydrogen bonding forces. Octane (CH3-CH2- CH2- CH2- CH2- CH2- CH2- CH3) molecues experience dispersion forces only. Water boils at 100 0C, whereas octane boils at 125.6 0C. Briefly explain why octane has the higher boiling point temperature
Forces involved in protein folding include: 1- hydrogen bonding, hydrophobic interactions and electrostatic interactions. 2-hydrophobic interactions 3- electrostatic interactions. 4-hydrogen bonding. 5- only hydrogen bonding and electrostatic interactions.
(a) Use Lewis structures to show a molecule of formaldehyde forming hydrogen bonding attractions with a molecule of water. CLEARLY identify the donor and acceptor in this drawing. (b) Referring to your drawing above, briefly explain why two formaldehyde molecules can't form hydrogen bonding attractions between each other.