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Explain use the fact that water is a polar molecule to explain why water has a much higher boiling point than other molecules of its size?
Water has a high electron density on the oxygen atom of the molecule, creating a slight positive charge on the oxygen, and a slight negative charge on the hydrogens of the molecule, as opposite charges attract, the hydrogens of one water molecule are attracted to the oxygen of another, this process repeats ad infinitum. This interaction is known as dipole-dipole interaction. Additionally, water is capable of Hydrogen bonding, where the hydrogens of one water form weak "temporary" bonds with the oxygen of another water. All these factors culminate in water having a higher boiling point than similar molecules as more energy is required to overcome these forces to put water into the gas phase.
What else can I help you with?
Why do scientists use resonance structures to represent some molecules?
Scientists use resonance structures to represent molecules because they provide a more accurate description of the electron distribution within the molecule. By showing different possible locations of electrons in a molecule, resonance structures help explain the stability and reactivity of the molecule.
Can you explain the diagram of molecules and how it relates to chemical reactions?
The diagram of molecules shows how atoms are arranged in a molecule. In chemical reactions, molecules interact and rearrange their atoms to form new substances. The diagram helps us understand how molecules change during a chemical reaction.
Can you explain why certain molecules have no resonance structures?
Certain molecules have no resonance structures because their Lewis structures already accurately represent the distribution of electrons within the molecule. This means that there are no alternative ways to arrange the electrons that would result in a more stable structure.
How is water's polarity connected to its boiling point, and can you explain this relationship?
Water's polarity is connected to its boiling point through the hydrogen bonds that form between water molecules. The polarity of water molecules allows them to attract each other, forming hydrogen bonds. These bonds require energy to break, which is why water has a relatively high boiling point compared to other substances of similar size. The more hydrogen bonds present, the higher the boiling point of the substance.
What examples of dipole induced dipole forces?
An example of dipole-induced dipole forces is the interaction between a polar molecule, such as water, and a nonpolar molecule, such as nitrogen. The polar molecule induces a temporary dipole in the nonpolar molecule, creating an attractive force between the two molecules. This type of interaction helps explain why some substances can dissolve in water even if they are nonpolar.
how do you explain what polar molecules are?
Water molecules are polar molecules. Both of the bonds inside the molecule are polar bonds.
What have you made if you use balls to explain the structure of a molecule?
If you use balls to explain the structure of a molecule you have made a model.
How atom and molecules are important to cell processes explain?
why atom and molecules are important to cell processes explain
Does the concept of temperature apply to a single molecule?
Concept of temperature in single molecules could be explain through statistical thermodynamics and measure the temperature in term of kinetic energy of the molecules. Forclassical thermodynamics, the temperature is macroscopic properties andcan't be explain or describe in the classical scope.
Explain specifically what the subscripts mean in the molecule formula C6H12O6?
explain specifically what the subscripts mean in the molecule formula c 6 h 12 o 6
Explain the difference between molecule and formula unit?
The formula unit is the representation of a molecule.
What is NH3-molecule shape on the basis hybridiazation explain?
pyramidal
Why do scientists use resonance structures to represent some molecules?
Scientists use resonance structures to represent molecules because they provide a more accurate description of the electron distribution within the molecule. By showing different possible locations of electrons in a molecule, resonance structures help explain the stability and reactivity of the molecule.
Can you explain the diagram of molecules and how it relates to chemical reactions?
The diagram of molecules shows how atoms are arranged in a molecule. In chemical reactions, molecules interact and rearrange their atoms to form new substances. The diagram helps us understand how molecules change during a chemical reaction.
Why symmetry model can only explain positive homotropic cooperativity?
Homotropic molecules have chemically identical H's. As in the molecule can be cut in half and the hydrogens are all of the same molecular strength.
Why the 1cup can transfer more heat than 1teapot of boiling water .explain?
There are more molecules to heat up in a pot of tea than in a small cup. The molecules have more space to move around, thus creating more energy.
What kind of experiment would explain separation of salt water solution?
evaporation or boiling!!!
