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I understand that there will most likely not be a lot of deriving during this course, but just in case, I was wondering if anyone had any resources that they found particularly helpful with brushing up on their calculus. It never hurts to be prepared!
From what I understand, Dr. Lavelle does the derivations in class so we can have a better understanding of where the equations we use come from. But if you would still like to study the derivations there is a set of link on the Chemistry 14B wesbite about common derivatives in chemistry, and it is very helpful!
My TA reviewed the equations sheet that will be given to us for the quiz and he said that almost all the equations we need are on the sheet. The only equation we need to memorize is the one that calculates work when it's a reversible isothermal reaction, which is w = -nRT ln(V2/V1)
Chem_Mod wrote:Only what I derive in class is 'fair game'.
The overwhelming main focus, as one can see from past quizzes and exams, are questions similar to the assigned homework questions.
The second post is my answer. Surprised to see students ignoring my answer.
904826427 wrote:My TA said things like derivatives and integrals are highly unlikely to be tested on since many people are not taking a calculus based math class.
Not true. We use them in multiple derivations in class.
Please see course requirements at UCLA Registrar's Office:
"Enforced requisite or corequisite: Life Sciences 30B or Mathematics 3B or 31B with grade of C- or better."
This means Math 3A or Math 31A or LS 30A (all calculus classes) are completed, and Math 3B or Math 31B or LS 30B (all calculus classes) are also completed or taken at the same time as Chem 14B.
Please see the Math Assistance section I have created on my class website to assist students.
Ryan Petrecca 1L wrote:I think you will be fine regarding the derivations, you will not have to know them as most of the equations needed will be given.
Correct all equations and constants are given.
But everything covered in class can be asked including concepts used in derivations, and derivations.
Why would I go to all the effort of spending considerable time in class covering material and not expect it to be tested ...
Yes, as stated many times, the main focus is the homework and problem solving. But theory can and will be asked and that includes everything covered in class.
Please see my previous posts on this.
Kristen_Power_1C wrote:I understand that there will most likely not be a lot of deriving during this course, but just in case, I was wondering if anyone had any resources that they found particularly helpful with brushing up on their calculus. It never hurts to be prepared!
Please see the Math Assistance section I created on my class website. This material is sufficient for the math needed and used in Chem 14B.
Isabella_Pena_3D wrote:My TA said to focus on the resources given to us (like quizzes and book problems), so my guess is that if we are tested on derivations, it'll be one that someone went over in Lecture or discussion.
But only the ones I cover in my lectures. See my many above posts on this.
Patrick Ricaflanca 2H wrote:I think most of what will be asked for is the manipulation of given equations to solve for problems.
For example, delta U= q+w; since w=-P V we can substitute it into the equation -> delta U= q - PV
Daniel Cho 1F wrote:No you will not have to worry about derivations.
Everything I cover in lectures can be asked. See my many posts repeating this answer.
The emphasis in all tests is the assigned homework. Just like it was in Chem 14A.
Wenqian_Deng_1L wrote:My TA reviewed the equations sheet that will be given to us for the quiz and he said that almost all the equations we need are on the sheet. The only equation we need to memorize is the one that calculates work when it's a reversible isothermal reaction, which is w = -nRT ln(V2/V1)
All constants and equations are given. Including w = -nRT ln(V2/V1).
I think since most of the derivations are based on prior knowledge and using substitution from other equations, it would be probable that you can look at the question asked, look at what you're given, and see what concepts they have in common in order to derive the equation!
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