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Jacob Stewart
United States
เข้าร่วมเมื่อ 31 ส.ค. 2020
Videos used for teaching Chemistry classes at Connecticut College.
Chapter 5: Nonideal Gas Behavior | CHM 103 | 152
Chapter 5: Nonideal Gas Behavior | CHM 103 | 152
มุมมอง: 244
วีดีโอ
Chapter 5: Root Mean Square Speed Calculation | CHM 103 | 151
มุมมอง 1664 หลายเดือนก่อน
Chapter 5: Root Mean Square Speed Calculation | CHM 103 | 151
Chapter 5: Kinetic Energy and Speeds of Gases | CHM 103 | 150
มุมมอง 2034 หลายเดือนก่อน
Chapter 5: Kinetic Energy and Speeds of Gases | CHM 103 | 150
Chapter 5: Kinetic Molecular Theory and Gas Laws | CHM 103 | 149
มุมมอง 1564 หลายเดือนก่อน
Chapter 5: Kinetic Molecular Theory and Gas Laws | CHM 103 | 149
Chapter 5: Kinetic Molecular Theory | CHM 103 | 148
มุมมอง 1704 หลายเดือนก่อน
Chapter 5: Kinetic Molecular Theory | CHM 103 | 148
Chapter 5: Mole Fraction Calculation | CHM 103 | 147
มุมมอง 1705 หลายเดือนก่อน
Chapter 5: Mole Fraction Calculation | CHM 103 | 147
Chapter 5: Partial Pressures | CHM 103 | 146
มุมมอง 2005 หลายเดือนก่อน
Chapter 5: Partial Pressures | CHM 103 | 146
Chapter 5: Gas Density | CHM 103 | 145
มุมมอง 1965 หลายเดือนก่อน
Chapter 5: Gas Density | CHM 103 | 145
Chapter 5: Gases in Chemical Reactions | CHM 103 | 144
มุมมอง 1815 หลายเดือนก่อน
Chapter 5: Gases in Chemical Reactions | CHM 103 | 144
Chapter 5: Practice Calculation with Ideal Gas Law | CHM 103 | 143
มุมมอง 1775 หลายเดือนก่อน
Chapter 5: Practice Calculation with Ideal Gas Law | CHM 103 | 143
Chapter 5: The Ideal Gas Law | CHM 103 | 142
มุมมอง 2115 หลายเดือนก่อน
Chapter 5: The Ideal Gas Law | CHM 103 | 142
Chapter 5: The Gas Laws | CHM 103 | 141
มุมมอง 2625 หลายเดือนก่อน
Chapter 5: The Gas Laws | CHM 103 | 141
Chapter 5: Pressure Definition and Units | CHM 103 | 140
มุมมอง 2095 หลายเดือนก่อน
Chapter 5: Pressure Definition and Units | CHM 103 | 140
Chapter 5: Introduction to Gas Properties | CHM 103 | 139
มุมมอง 3825 หลายเดือนก่อน
Chapter 5: Introduction to Gas Properties | CHM 103 | 139
Chapter 9: Properties of Second Row Diatomics | CHM 103 | 138
มุมมอง 1895 หลายเดือนก่อน
Chapter 9: Properties of Second Row Diatomics | CHM 103 | 138
Chapter 9: Molecular Orbitals of 2nd Row Diatomics | CHM 103 | 137
มุมมอง 1935 หลายเดือนก่อน
Chapter 9: Molecular Orbitals of 2nd Row Diatomics | CHM 103 | 137
Chapter 9: Moleulcar Orbitals of H2 and He2 | CHM 103 | 136
มุมมอง 1355 หลายเดือนก่อน
Chapter 9: Moleulcar Orbitals of H2 and He2 | CHM 103 | 136
Chapter 9: Introduction to Molecular Orbital Theory | CHM 103 | 135
มุมมอง 1495 หลายเดือนก่อน
Chapter 9: Introduction to Molecular Orbital Theory | CHM 103 | 135
Chapter 9: Resonance in Valence Bond Theory | CHM 103 | 134
มุมมอง 1985 หลายเดือนก่อน
Chapter 9: Resonance in Valence Bond Theory | CHM 103 | 134
Chapter 9: Hybrid Orbitals with Expanded Octets | CHM 103 | 133
มุมมอง 1465 หลายเดือนก่อน
Chapter 9: Hybrid Orbitals with Expanded Octets | CHM 103 | 133
Chapter 9: Triple bonds in Valence Bond Theory | CHM 103 | 132
มุมมอง 1295 หลายเดือนก่อน
Chapter 9: Triple bonds in Valence Bond Theory | CHM 103 | 132
Chapter 9: Forming pi Bonds | CHM 103 | 131
มุมมอง 1495 หลายเดือนก่อน
Chapter 9: Forming pi Bonds | CHM 103 | 131
Chapter 9: sp3 and sp2 Hybrid Orbitals | CHM 103 | 130
มุมมอง 1755 หลายเดือนก่อน
Chapter 9: sp3 and sp2 Hybrid Orbitals | CHM 103 | 130
Chapter 9: Introduction to Valence Bond Theory | CHM 103 | 129
มุมมอง 1795 หลายเดือนก่อน
Chapter 9: Introduction to Valence Bond Theory | CHM 103 | 129
Chapter 9: Polar Molecules Part 2 | CHM 103 | 128
มุมมอง 1735 หลายเดือนก่อน
Chapter 9: Polar Molecules Part 2 | CHM 103 | 128
Chapter 9: Polar Molecules Part 1 | CHM 103 | 127
มุมมอง 1815 หลายเดือนก่อน
Chapter 9: Polar Molecules Part 1 | CHM 103 | 127
Chapter 9: Practice with Molecular Geometries | CHM 103 | 126
มุมมอง 1465 หลายเดือนก่อน
Chapter 9: Practice with Molecular Geometries | CHM 103 | 126
Chapter 9: Central Atoms with Lone Pairs Part 3 | CHM 103 | 125
มุมมอง 1435 หลายเดือนก่อน
Chapter 9: Central Atoms with Lone Pairs Part 3 | CHM 103 | 125
Chapter 9: Central Atoms with Lone Pairs Part 2 | CHM 103 | 124
มุมมอง 1685 หลายเดือนก่อน
Chapter 9: Central Atoms with Lone Pairs Part 2 | CHM 103 | 124
Chapter 9: Central Atoms with Lone Pairs Part 1 | CHM 103 | 123
มุมมอง 1825 หลายเดือนก่อน
Chapter 9: Central Atoms with Lone Pairs Part 1 | CHM 103 | 123
thank you so much for this playlist and explain the concepts in a understandable way it really helped my physical chemistry class
There will be more particles in the low temperature to have the same pressure.
why are we burn the atom it's already absorbs light and gets excited
Because the sample is in liquid form and it needs to be vaporized.
What my professor explained incoherently for 50 minutes you explained in less. Thank you for these videos. Btw i am not one of your students, but now i wish i am.
aye bro next time just do it with mmol idk what the hell that calculation was
That's calculating a CHANGE in entropy.
THANK YOU SIR FOR MAKING THESE VIDEOS! I SIMPLY CANNOT ARTICULATE HOW GRATEFUL I AM FOR THIS HELP WITH PCHEM! PRAISE THE LORD! YOU ARE A GIFT FROM HEAVEN!!!😇🏋♀🍀🍾🌅🌟🔥🏆🏅🎉♥🎰🎯🕶🎶💰🔑🏴☠🐼🐯🫂🥷👍✌🤟🤘🤙👏👏👏👏👏💯WIN
In the context of defining a molecule as a combination of two or more atoms that form a compound, would this definition also apply to an element that is composed of two or more atoms?
10k K is pretty cold, ~0.8eV whereas a neon tube might be 3-4 eV
Hello Professor, thank you for these videos they are super helpful. I was just wondering why you did not consider a macrostate where each molecule individually occupies one energy level. Thank you!
Excellent, thank you very much!
I can’t thank you enough! This was really confusing for me , just now I realized how easy it is and not at all a hard concept to grasp! Thank you again ❤️
It's quite a brief video, but full of knowledge. Thank you for sharing🎉
just completed watching your playlist thanks
very informative video sir respect from India
banger video ty
Thank you for those videos they are AMAZING! is there a link for the slides you are using?
Sorry, I don't have a link for the slides.
Your content is best please tell the book that you are talking about i am from india
These lectures are based on the book Physical Chemistry: A Molecular Approach by McQuarrie and Simon
So the previous playlist is "Physical Chemistry I Chapter 11 - Computational Chemistry". This one is Chapter 13. So what happened to Chapter 12? I have not watched the content of the videos yet but I am trying to sort things before I go through the videos. Similar thing is happening with "Physical Chemistry II". There are Chapters names 16/27 and also 16. There is also a jump from "Physical Chemistry II Chapter 26" to "Physical Chemistry II Chapter 28". So are there a chapters missing on purpose or you are just referencing the chapters of the book they come from? If that is the case, then which book/edition are you referencing from? At last, if someone just sort the videos by the time they were uploaded and watch them chronologically in order, will they miss anything? Overall videos are quite helpful and right to the point. A nice job of explanation is performed. Well done!
Hello, these are organized based on the class I teach at Connecticut College. The classes are based on the textbook Physical Chemistry: A Molecular Approach by McQuarrie and Simon. In Physical Chemistry I, we skip over Chapter 13, so I don't have videos covering those topics. For Physical Chemistry II, I cover some of the topics in a slightly different order than the textbook. You will be fine to just watch them in the chronological order that they were uploaded.
Thank you.
Sir is there any way to reach you for a general query like what books to refer for research in the field of physical chemistry and analytical chemistry And how to choose a research topic
Thanks for the video Jacob, is there a commercial laser that allows, for example, to kill insects without harming humans or pets?
hi thank you
I just gave up on the topic of fugacity until I got this video. Thanks
Hello sir if you don't mind and it's not a problem could you make an online class/session so we can ask you questions we cant figure out? And thanks very much you helped make chemistry fun and easy.
وياك طالب علوم كيميا من العراق
at time 2:13 why did you not calculate the conditional formation constant then multiply by the product of the concentration of metal ion and EDTA which we already have
For the pH of the amphiprotic species, why didn't we use the pH=1/2(pka1+pka2)?
First of all, I appreciate you preparing a clear explanation of the gibbs duhem equation. how do we get a non-ideal solution when the Activity and activity coefficient are used in place of the mole fraction. As I have seen It so far the integration for that equation whirled . Can you help me with that?
An amazing job indeed! Thanks for the good illustration dr
Tysm!!!
Thank you for the explanation sir. I was stuck at a problem in my jee lecture notes but now after your explanation the concept is crystal clear
Great explanation sir. Which book do you use to prepare this lecture material? Is there any specific book that you would recommend for CHM 307? Thanks!
These lectures are based on Physical Chemistry: A Molecular Approach by McQuarrie and Simon.
Explained with Excellence 👍
I just aced my quiz. Came back to say thanks!
Awesome! Glad my videos could help!
I think there is a mini mistake in the stimulated emission formula. It supposed to be dN_1/dt = .......
Thank you ❤
Thank you ❤
I dont attend your lectures nor do i go to the university you teach but you have helped me allooooooot with chemistry i wish you the best
Thank you. It helps a lot❤
from singlet to triplet is unlikely, is this spin selection rule?
Finally i Understood thank you ✨
Thank you
SIR CAN WE WRITE THAT dUb=- dUA
thank you jacob for carrying me<3🙈
Hence is I want to calculate the interaction of the hydrogen bond between 2 compound, I can use the ** and ++ right?
why didn’t we use the Kf value ?
Hello, before the equivalence point we don't need to worry about using Kf because the amount of Ca2+ that is left only depends on how much has reacted with the EDTA. This doesn't involve an equilibrium - we just assume that all of the EDTA that is added completely reacts with the Ca2+ and the concentration of Ca2+ will be determined by what hasn't yet reacted.
cansın hocaaa
amazing!!
This is so helpful thank you! How would the |z-z+| be used for an electrolye with 3 ions, such as MgNH4PO4?
(z of Mg2+) x (z of NH4+) x (z of PO4 3-) = (2)x(1)(x(3) = 6 I believe! And all positive bc there is an absolute value function