Can we please applaud this man on the fact that he is above and beyond the best teacher on the internet and the guy doesn't even put ads on his free videos. We are blessed to have you brother
I love how you don't condescend students or make us feel like we are behind on learning. Some professors tend to say of course and obviously a lot while teaching and it really makes students feel stressed out. Your teaching style never feels stressful, it's all about actually learning the concept! Thank You!! :)
Chad, I just wanted to take a moment to tell you how appreciated you are. Your lectures completely blow away those of most instructors as far as in how well you are able to explain the material in a way that makes sense to us. Thank you for your time and hard work you've put into providing us all with supplementary material for helping us better understand the concepts that we may have been confused about in class.
Chad, you have re-ignated all of the semantic networks in my brain from O-chem and all of GenChem that I was reluctant to re-learn for a huge test. I cant thank you enough for your talent for teaching. I feel like im back at office hours.
There is a lot of content of UA-cam but I have a methodical way that I prefer to learn. Your channel is laid out in a way that builds up and makes sense of one thing at a time. I study part time and my study guides are not helpful at all with the way I like to learn. Thank you for creating these videos and also the playlists that take us through the chapters and concepts one by one. Really neatly laid out and well explained. The gift of education surpasses any other. God bless brother.
Thanks Gabrielle! I do my best to choose examples to cover the different types of questions students are likely to encounter on exams. Glad you found this helpful!
One of the best and most detailed chemistry videos and playlists on UA-cam! I applaud you sir just from watching videos from you and other I feel like I understand chemistry way better after getting my BS than while in college. Probably because I’m studying just for fun and a better understanding rather than meet up with constant deadlines and just trying to get a good grade.
I think it's just kind of nice to know that melting point trends don't always match boiling point trends, even though exact nuances aren't always very predictable. Great lecture, thanks so much.
I just purchased your monthly subscription for the OAT exam prep! Love your videos. I was just wondering, was this program setup based on your or your team having experience with the specific topics on these types of exams? Maybe even specifically the OAT?
Hydrogen Bonding Definition: The strongest type of dipole-dipole interaction. Criteria: Occurs when hydrogen is bonded to highly electronegative atoms such as fluorine, oxygen, or nitrogen. Example: Water (H₂O) molecules, where hydrogen bonds form between the hydrogen of one molecule and the oxygen of another. Dipole-Dipole Forces Definition: Attractive forces between polar molecules. Example: Hydrogen chloride (HCl) molecules, where the partial positive charge of hydrogen is attracted to the partial negative charge of chlorine in adjacent molecules. London Dispersion Forces (Van der Waals Forces) Definition: The weakest intermolecular force, present in all molecules. Mechanism: Temporary dipoles caused by momentary distributions of electron density. Example: Present in all molecules, but especially noticeable in nonpolar molecules like methane (CH₄). Ion-Dipole Forces Definition: Attractive forces between an ion and a polar molecule. Example: Sodium chloride (NaCl) dissolved in water, where the Na⁺ ions interact with the partial negative charge on water's oxygen atoms, and Cl⁻ ions interact with the partial positive charge on water's hydrogen atoms. Importance of Intermolecular Forces Properties Affected: Boiling and Melting Points: Higher intermolecular forces result in higher boiling and melting points. Viscosity: Stronger intermolecular forces lead to higher viscosity. Surface Tension: Higher intermolecular forces result in higher surface tension. Vapor Pressure: Higher intermolecular forces lead to lower vapor pressure. Examples and Applications Hydrogen Bonding: Example: Water (H₂O) exhibits strong hydrogen bonding, leading to its high boiling point relative to its molecular weight. Dipole-Dipole Forces: Example: HCl exhibits dipole-dipole interactions due to its polar nature. London Dispersion Forces: Example: Methane (CH₄) only has London dispersion forces but they increase with larger molecules. Ion-Dipole Forces: Example: NaCl in water demonstrates strong ion-dipole interactions, which are significant in dissolving salts. Ranking Boiling Points Network Covalent Solids: (e.g., diamond, SiO₂) have the highest boiling points. Ionic Compounds: (e.g., NaCl) also have high boiling points. Molecular Compounds with Hydrogen Bonding: (e.g., water, NH₃) have lower boiling points than ionic compounds but higher than those with only dipole-dipole or dispersion forces. Molecular Compounds with Dipole-Dipole Forces: Lower boiling points than hydrogen-bonded compounds. Molecular Compounds with London Dispersion Forces: Typically have the lowest boiling points among molecular compounds. Branching and Boiling Points Effect of Branching: More Branched Molecules: Lower boiling points due to reduced surface area and weaker dispersion forces. Example: Isomers of pentane show different boiling points based on branching. Solubility Principle: Like dissolves like. Polar Solvents: Dissolve polar solutes (e.g., water dissolves salt). Non-Polar Solvents: Dissolve non-polar solutes (e.g., hexane dissolves oils).
Thx a lot Chad! This was a beautiful lecture. But why does the compound having more number of carbons are more soluble in a polar substance? Tho bigger non polar region decreases hydrogen bonding between a few compounds in the solution
Can we please applaud this man on the fact that he is above and beyond the best teacher on the internet and the guy doesn't even put ads on his free videos. We are blessed to have you brother
Very kind words - thank you very much.
I love how you don't condescend students or make us feel like we are behind on learning. Some professors tend to say of course and obviously a lot while teaching and it really makes students feel stressed out. Your teaching style never feels stressful, it's all about actually learning the concept! Thank You!! :)
You're welcome and Thank you very much!
Chad, I just wanted to take a moment to tell you how appreciated you are. Your lectures completely blow away those of most instructors as far as in how well you are able to explain the material in a way that makes sense to us. Thank you for your time and hard work you've put into providing us all with supplementary material for helping us better understand the concepts that we may have been confused about in class.
Youare welcome and I appreciate the feedback - it really does make a difference!
Chad, you have re-ignated all of the semantic networks in my brain from O-chem and all of GenChem that I was reluctant to re-learn for a huge test. I cant thank you enough for your talent for teaching. I feel like im back at office hours.
Excellent - thanks for sharing and good luck on your test!
There is a lot of content of UA-cam but I have a methodical way that I prefer to learn. Your channel is laid out in a way that builds up and makes sense of one thing at a time. I study part time and my study guides are not helpful at all with the way I like to learn. Thank you for creating these videos and also the playlists that take us through the chapters and concepts one by one. Really neatly laid out and well explained. The gift of education surpasses any other. God bless brother.
Glad the channel is working for you - Happy Studying!
I am so glad i found this channel. My prof could not explain this in a week. You made it so clear, thanks Chad!
You're welcome and glad you found us!
Best examples for solubility and ranking boiling points! Chad you're the BEST!
Thanks Gabrielle! I do my best to choose examples to cover the different types of questions students are likely to encounter on exams. Glad you found this helpful!
I'm a pharmacy student and so far I'm doing really well at my organic Chemistry class and it's ALL because of you. Thank you ♥️
Keep up the good work and Happy Studying!
One of the best and most detailed chemistry videos and playlists on UA-cam! I applaud you sir just from watching videos from you and other I feel like I understand chemistry way better after getting my BS than while in college. Probably because I’m studying just for fun and a better understanding rather than meet up with constant deadlines and just trying to get a good grade.
Glad the channel is helping you - Happy Studying!
I think it's just kind of nice to know that melting point trends don't always match boiling point trends, even though exact nuances aren't always very predictable.
Great lecture, thanks so much.
You're welcome!
Literally this video saved me before my chem exam!! You explain things so well!! THANK YOUUU
Excellent - You're welcome!
"...or if you feel sorry for bald people"😂
The lectures are very helpful and btw bald people are the kindest!!
Glad you're finding the lectures helpful Donya! And I agree, bald people are the kindest people and the most humble regarding their great kindness!😂
I just purchased your monthly subscription for the OAT exam prep! Love your videos. I was just wondering, was this program setup based on your or your team having experience with the specific topics on these types of exams? Maybe even specifically the OAT?
Sexiest chem teacher on youtube by far... These videos really helping for my exam preparation thank you!
Glad you are finding the videos helpful :)
Hydrogen Bonding
Definition: The strongest type of dipole-dipole interaction.
Criteria: Occurs when hydrogen is bonded to highly electronegative atoms such as fluorine, oxygen, or nitrogen.
Example: Water (H₂O) molecules, where hydrogen bonds form between the hydrogen of one molecule and the oxygen of another.
Dipole-Dipole Forces
Definition: Attractive forces between polar molecules.
Example: Hydrogen chloride (HCl) molecules, where the partial positive charge of hydrogen is attracted to the partial negative charge of chlorine in adjacent molecules.
London Dispersion Forces (Van der Waals Forces)
Definition: The weakest intermolecular force, present in all molecules.
Mechanism: Temporary dipoles caused by momentary distributions of electron density.
Example: Present in all molecules, but especially noticeable in nonpolar molecules like methane (CH₄).
Ion-Dipole Forces
Definition: Attractive forces between an ion and a polar molecule.
Example: Sodium chloride (NaCl) dissolved in water, where the Na⁺ ions interact with the partial negative charge on water's oxygen atoms, and Cl⁻ ions interact with the partial positive charge on water's hydrogen atoms.
Importance of Intermolecular Forces
Properties Affected:
Boiling and Melting Points: Higher intermolecular forces result in higher boiling and melting points.
Viscosity: Stronger intermolecular forces lead to higher viscosity.
Surface Tension: Higher intermolecular forces result in higher surface tension.
Vapor Pressure: Higher intermolecular forces lead to lower vapor pressure.
Examples and Applications
Hydrogen Bonding:
Example: Water (H₂O) exhibits strong hydrogen bonding, leading to its high boiling point relative to its molecular weight.
Dipole-Dipole Forces:
Example: HCl exhibits dipole-dipole interactions due to its polar nature.
London Dispersion Forces:
Example: Methane (CH₄) only has London dispersion forces but they increase with larger molecules.
Ion-Dipole Forces:
Example: NaCl in water demonstrates strong ion-dipole interactions, which are significant in dissolving salts.
Ranking Boiling Points
Network Covalent Solids: (e.g., diamond, SiO₂) have the highest boiling points.
Ionic Compounds: (e.g., NaCl) also have high boiling points.
Molecular Compounds with Hydrogen Bonding: (e.g., water, NH₃) have lower boiling points than ionic compounds but higher than those with only dipole-dipole or dispersion forces.
Molecular Compounds with Dipole-Dipole Forces: Lower boiling points than hydrogen-bonded compounds.
Molecular Compounds with London Dispersion Forces: Typically have the lowest boiling points among molecular compounds.
Branching and Boiling Points
Effect of Branching:
More Branched Molecules: Lower boiling points due to reduced surface area and weaker dispersion forces.
Example: Isomers of pentane show different boiling points based on branching.
Solubility
Principle: Like dissolves like.
Polar Solvents: Dissolve polar solutes (e.g., water dissolves salt).
Non-Polar Solvents: Dissolve non-polar solutes (e.g., hexane dissolves oils).
Great teacher 🎉
Thank you
Great lecture
Thanks.
was having trouble with this topic. have my acs on monday - tysm!!
You're welcome and hope you do well on your acs!
fantastic video
Thank you
Thank you
You're welcome.
thanks so much!!
You're welcome!
Excellent
👍
Thx a lot Chad! This was a beautiful lecture.
But why does the compound having more number of carbons are more soluble in a polar substance? Tho bigger non polar region decreases hydrogen bonding between a few compounds in the solution
Thank you chad!!!!!!! :)
Very welcome!!!
lmaoo the endin
this was so good
😁😛