Introductory Chemistry Requirement for Physics Majors: Why is it Mandatory?

In summary: Most probably, if you're pursuing a career as a research physicist, you're not working in particle/nuclear physics. You're most probably studying a field which uses chemistry directly or indirectly:https://www.aip.org/statistics/data-graphics/number-physics-phds-granted-subfield-physics-departments-classes-2010-2011
  • #1
bagasme
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Hello,

I looked into lists of subjects/courses for Physics Major, and I surprised that Introductory Chemistry is in the list, as mandatory course. I suspect that Molecule and Solids and Nuclear Physics chapter have to do with chemistry

Why is it mandatory to take Introductory Chemistry course for Physics Major? As physicist, what is the benefit of learning chemistry?

Here is the courses list, from a top university in Indonesia, the country where I live in: Course List

Cheers, Bagas
 
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  • #2
The thought that you might learn something not immediately applicable? The horror! The horror!
 
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  • #3
Vanadium 50 said:
The thought that you might learn something not immediately applicable? The horror! The horror!
Vanadium, Vanadium. Please no joke here.

Have a look to my question above.
 
  • #4
I'm serious. The point of a university education - indeed, education - is not to transmit the absolute bare minimum of information.
 
  • #5
Vanadium 50 said:
I'm serious. The point of a university education - indeed, education - is not to transmit the absolute bare minimum of information.

So physics students also learn chemistry because of nuclear physics?
 
  • #6
bagasme said:
So physics students also learn chemistry because of nuclear physics?
You don't need chemistry for nuclear physics. In fact, I am myself studying UG without chemistry as a generic elective (instead, I have computer science). But many institutions in my country too have made it a rule that in their 4-year BS-MS dual degree courses, students have to study all four science subjects (physics, chemistry, maths and even biology) for two years, and only in the third year you can choose a major subject.
bagasme said:
As a physicist, what is the benefit of learning chemistry?
Chemistry might be required (I am not too sure) in fields like Condensed Matter Physics, but if you choose a different path like particle physics or nuclear physics, you don't need chemistry.

In short, I feel that whether you require chemistry depends on the field you choose, but most probably in general, you don't need the subject. Even if you require it, you will be in a position to study the necessary topics from any book, as and when the need arises.
Vanadium 50 said:
The point of a university education - indeed, education - is not to transmit the absolute bare minimum of information.
True, but then I should study geography as well.

If physics is one's passion, and one really loves the subject, I believe forcing him/her to study other unrelated subjects simply adds workload. At the school level, this may be accepted, but not at the university/college level.
 
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  • #7
Chemistry is applied physics. So is solid state physics, nuclear physics, astronomy, electronics, cosmology, accelerator physics... where exactly do you propose we stop teaching about applications of physics? Should we just teach first year students about the standard model and expect them to work their way up?
 
  • #8
Dishsoap said:
Chemistry is applied physics. So is solid state physics, nuclear physics, astronomy, electronics, cosmology, accelerator physics... where exactly do you propose we stop teaching about applications of physics? Should we just teach first year students about the standard model and expect them to work their way up?
You teach me quantum chemistry, I will be happy to learn that. But if you teach me mechanisms of organic reactions, I am not quite sure how that will be helpful in physics major.
 
  • #9
Wrichik Basu said:
True, but then I should study geography as well.

And you should.
Wrichik Basu said:
If physics is one's passion, and one really loves the subject, I believe forcing him/her to study other unrelated subjects simply adds workload.

Again - learning something that might not be immediately useful. Oh, the humanity!

Wrichik Basu said:
but not at the university/college level.

You don't know the irony. Do you know who invented the liberal arts? A guy named Martianus Capella.

I'm going to steal some of this from retired professor and PF member Steve Dutch: "The roots of university curricula go back through the Middle Ages to about 400 A.D. The Roman Empire was coming unglued, and a Roman proconsul named Martianus Capella confronted the problem of how to cope. With central authority becoming fragmented and invaders sweeping in, there was every likelihood that a person might find himself carried off into captivity a thousand miles from home among people who spoke a completely different language. What did you need to know to survive in such a wildly uncertain world? Capella's answer: everything, or at least as close as you could come to it. "
 
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  • #10
Wrichik Basu said:
In short, I feel that whether you require chemistry depends on the field you choose, but most probably in general, you don't need the subject.
I think this is highly misleading. Most probably, if you're pursuing a career as a research physicist, you're not working in particle/nuclear physics. You're most probably studying a field which uses chemistry directly or indirectly:
https://www.aip.org/statistics/data...ubfield-physics-departments-classes-2010-2011
Of course, most probably if you're getting a degree in physics, you're not going to end up as a career physicist:
https://www.aip.org/statistics/whos-hiring-physics-phds
 
  • #11
Wrichik Basu said:
mechanisms of organic reactions
Which isn't often part of "Introduction to Chemistry". As I recall, my freshman chemistry class had a lot of physics in it.

I also believe that a university education should include enough breadth so that you know the big picture. How will you understand the limits of your knowledge or chosen specialty if you haven't been shown the similar related subjects? Graduate studies or continuing self-study can be quite effective in developing a deeper understanding of your field, so it is important that you are given a broad education initially so you will know what to study more of later. Perhaps some ancillary courses you will take are a waste of effort, but some may be very valuable; how will you know if you aren't introduced to them?
 
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  • #12
bagasme said:
Hello,

I looked into lists of subjects/courses for Physics Major, and I surprised that Introductory Chemistry is in the list, as mandatory course. I suspect that Molecule and Solids and Nuclear Physics chapter have to do with chemistry

Why is it mandatory to take Introductory Chemistry course for Physics Major? As physicist, what is the benefit of learning chemistry?

Here is the courses list, from a top university in Indonesia, the country where I live in: Course List

Cheers, Bagas

Question: How do you know that you won't need Chemistry in some way later on?

I teach a physics class to students majoring in Biology, Pre-Med, Life-Science, etc., and they certainly don't immediately see the need for a physics class. Yet, it is required as part of their major.

Here's an anecdotal story: When I started my Ph.D program, the first year of my research work I did only thin-film growth, where I not only made thin films of metals and superconductors, but also I assembled growth chamber, maintained all the diagnostics, etc.. Turned out, NONE of what I did during that time ended up in my PhD research area and in my thesis. Was that a waste of time?

Dial forward 3 years after that, toward the end of my Post-doc work, I got hired as a staff physicist because of, among others, they needed someone who can design, build, assemble, and grow thin films! It turned out that something that I did, that had no significance in my degree, was the skill that got me hired!

Moral of the story: Life happens while you're making plans. You may think you know what you want to do and where you want to end up, but this is often NOT what will ultimately occur! You have no idea what knowledge and what skills you may need either to get that job, or to accomplish something.

And this is all before I tell you why Chemistry is important for you as a physics major!

Zz.
 
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  • #13
DaveE said:
Which isn't often part of "Introduction to Chemistry". As I recall, my freshman chemistry class had a lot of physics in it.
Then the debate is over. In my country, in all universities, you have to study organic and inorganic chemistry in addition to physical chemistry. That includes memorising name reactions. That is the primary reason why I dislike this subject.

My main problem with chemistry is with the memorising part, rather than the physical part. In most universities here, we have the former rather than the latter in greater amount. This influenced my viewpoint against studying chemistry. If in other countries chemistry means physical chemistry, then there is no harm in it, and I support studying that.
 
  • #14
Wrichik Basu said:
Then the debate is over. In my country, in all universities, you have to study organic and inorganic chemistry in addition to physical chemistry. That includes memorising name reactions. That is the primary reason why I dislike this subject.

My main problem with chemistry is with the memorising part, rather than the physical part. In most universities here, we have the former rather than the latter in greater amount. This influenced my viewpoint against studying chemistry. If in other countries chemistry means physical chemistry, then there is no harm in it, and I support studying that.

Then your issue is not with the subject, but with the WAY it is being taught. This is a DIFFERENT issue!

Just because a policy is poorly executed does not mean that it is a bad policy. You need to learn how to differentiate the two.

Zz.
 
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  • #15
Wrichik Basu said:
Then the debate is over. In my country, in all universities, you have to study organic and inorganic chemistry in addition to physical chemistry. That includes memorising name reactions. That is the primary reason why I dislike this subject.

My main problem with chemistry is with the memorising part, rather than the physical part. In most universities here, we have the former rather than the latter in greater amount. This influenced my viewpoint against studying chemistry. If in other countries chemistry means physical chemistry, then there is no harm in it, and I support studying that.
Yes, I'm with you. That sounds very frustrating.
I always hated "learning by memorization". I have memorized a whole bunch of stuff and almost all of it was by actually using it. Memorization should happen last, not first.
 
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  • #16
It is not unreasonable to require all well-trained scientists to have a couple semesters in the other basic sciences. I benefited greatly from my year of Biology and Chemistry, even taking more than required. The science has served me very well in my career.
 
  • #17
Speaking of "Biology", a lot of physicists jumped into the BioPhysics bandwagon during the 90's and early 2000's when funding for physical sciences went into the toilet, while funding to NIH went through the roof.

You may want to do one thing, but if no one is going to fund you or pay you to do that, it will be completely useless. This is where the wider your knowledge base, the better you are able to adapt. This is no different than having a large genetic variation (if you know biology).

Zz.
 
  • #18
Wrichik Basu said:
That includes memorising name reactions. That is the primary reason why I dislike this subject.
How is this different from memorizing named equations? You certainly aren't going to rederive the Schrodinger equation/Euler-Lagrange equation/Maxwell's equations/etc. every time you use them. Most practicing physicists memorize them if for no other reason than their classwork beats them over the head with it until they know it cold. Ditto for chemistry. You just happen to have a certain preference for what you get beaten over the head with.

The point in chemistry, just as in physics, is to understand the (relatively small) set of principles behind the names. There are a zillion different iterations of palladium-catalyzed cross coupling, each with a different Nobel laureate's name attached, but I probably couldn't tell you what most of them are. I do know that all of them are probably going to involve an oxidative addition, a transmetalation, and a reductive elimination.
 
  • #19
WHY?
Too many ways that Physics and Chemistry overlap. Far, far too many ways. Chemistry students may well also ask, with so much use of Physics to explain topics about atoms and colors of coordination complexes and relationship between absorption of heat and temperature change for substances, are these students learning Chemistry, or are they learning Physics? If one studies Physics, one must at some times, pay attention to the identities and qualities of specific materials and blends of materials.
 
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  • #20
symbolipoint said:
WHY?
Too many ways that Physics and Chemistry overlap. Far, far too many ways. Chemistry students may well also ask, with so much use of Physics to explain topics about atoms and colors of coordination complexes and relationship between absorption of heat and temperature change for substances, are these students learning Chemistry, or are they learning Physics? If one studies Physics, one must at some times, pay attention to the identities and qualities of specific materials and blends of materials.
Regarding Physics-Chemistry overlap, the chapters which are in physics as well as chemistry are atomic models, quantum theory, molecule bonds and solids.
 
  • #21
TeethWhitener said:
How is this different from memorizing named equations? You certainly aren't going to rederive the Schrodinger equation/Euler-Lagrange equation/Maxwell's equations/etc. every time you use them. Most practicing physicists memorize them if for no other reason than their classwork beats them over the head with it until they know it cold. Ditto for chemistry. You just happen to have a certain preference for what you get beaten over the head with.
It is a matter of preference. A physics major might not want to memorise reactions in chemistry, while he can easily remember equations in physics (maybe he doesn't even know he is, kind of, memorising those equations). Same goes for a chemistry major, as @symbolipoint suggested in post #19 above. The memorising becomes easier if you are interested in the subject. If I ask a chemistry major (who is interested in organic chemistry, say) to study QFT, he would perhaps be least interested in it, because that is not his preference.

The study becomes more painful if there are examinations and credit points associated with it. I do sometimes study topics in biology because I am interested in them, but if I were to sit for an exam on those topics, it would be a painful situation for me.

The point that I want to stress is, don't force students to study something that they don't like. It would simply add to the workload if the student has at the back of his mind that he is studying only for an examination, and is not interested in the subject. Interest in a subject cannot be grown forcibly, and if you are not interested, then what you have studied doesn't stay with you long after the exam is over.
 
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  • #22
Wrichik Basu said:
The point that I want to stress is, don't force students to study something that they don't like. It would simply add to the workload if the student has at the back of his mind that he is studying only for an examination, and is not interested in the subject. Interest in a subject cannot be grown forcibly, and if you are not interested, then what you have studied doesn't stay with you long after the exam is over.

This is one of the WORST ideas I've heard on this forum.

Many students do not like to study math. So should we tell them they don't have to do it even though we KNOW that many of them will need it later on?

You do not know what you might need. We put stuff on the curriculum so that you have a wide-enough knowledge base that will equip you to go on whatever directions that your life may take you. You do not yet know what is important to you. So how could you tell that the subject that you have no interest in might actually be important? And how would you know that the subjects that actually interest you are even important?

You don't!

You, as a student, are not the best judge to know what you need and what you don't. We give you want you need, not what you like.

Zz.
 
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  • #23
ZapperZ said:
This is one of the WORST ideas I've heard on this forum.

While I agree, let's cut the kid some slack. He's not even in college, so of course he's dispensing bad advice. And of course the OP gives it a Like. Who wouldn't like advice that says "Sure, you can eat nothing but candy"?
 
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  • #24
Vanadium 50 said:
While I agree, let's cut the kid some slack. He's not even in college, so of course he's dispensing bad advice. And of course the OP gives it a Like. Who wouldn't like advice that says "Sure, you can eat nothing but candy".

Then I'm glad I refrained myself from saying "You're acting like a petulant child who refuses to eat your vegetables!"

Zz.
 
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  • #25
Guess what also happens! A person of age well over 50 attends your class, has been working at least a few years, your class is required as part of some kind of graduation requirement, and this person tells you much the same as what you'd expect or imagine to hear of a much younger and less experienced student; that stuff about not expecting to use any of some particular course, the "some particular course" being impractical for student's expected later jobs. Etcetera,..

Frustrating. Like you said, the student still does not know exactly what he/she will need or not need.
 
  • #26
Dishsoap said:
Chemistry is applied physics. So is solid state physics, nuclear physics, astronomy, electronics, cosmology, accelerator physics... where exactly do you propose we stop teaching about applications of physics? Should we just teach first year students about the standard model and expect them to work their way up?

I'm not sure if chemistry majors will agree with your sentiment above (although I agree that a major component of chemistry is applied physics).

That being said, the curious thing is that not all physics degree programs in different universities in different countries require chemistry. For example, consider the Physics Specialist degree program at the University of Toronto (my alma mater).

https://fas.calendar.utoronto.ca/section/Physics
If you click on the tab for Physics Specialist, the students are not required to take any chemistry courses at all.

However, in other universities, physics students are required to take introductory chemistry. I'm curious as to why the difference.
 
  • #27
@StatGuy2000 does U of T have POST requirements to declare a Physics major or is it direct admit in year 1? Many schools in Ontario at least have gone a bit more towards the U.S. model of having more of a general 1st year. When I attended university eons ago you were admitted directly to your major starting in first year. More often now schools are admitting to a faculty (e.g. Sciences or Arts & Sciences) but not to a specific major. The first year is built more loosely to allow some exploration before declaring a major. As a result they may require courses across a broad range of disciplines to meet the 2nd year prerequisites for a variety of majors. Many schools have also introduced breadth requirements which were never required when I attended.

My son will be pursuing a Physics undergrad at McMaster and they have 1st year gateway programs that fulfill the prerequisites for a range of potential majors. He will be doing Chemical and Physical Sciences which encompasses the necessary courses for Chemistry, Physics, and Earth Sciences majors. It's also possible to transfer from other gateway programs if you take the requisite courses as electives. As a result since the gateway serves multiple potential majors there is some overlap in required courses. Physics majors are required to take 2 Physics and 1 Chem course while Chem students take 2 Chem and 1 Physics. If you are undecided which direction to go you will take both Physics and both Chem courses. It provides more flexibility in choosing a major for those who are undecided. In comparison Waterloo admits directly to the major but they still require 2 semesters of Chemistry with Lab for their Physics majors and vice versa for their Chemistry majors. It makes it easier to switch if you change your mind.
 
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  • #28
gwnorth
Your discussion resembles the way pre-medical/pre-dental/pre-veterinary/pre-optometry major objective students are treated for those programs. Many, a great MANY of the required courses are the same; truly a great idea, so that students learn a bit more broadly, just in case they need some insight later, or just in case they change major field to something different or similar related.
 
  • #29
gwnorth said:
@StatGuy2000 does U of T have POST requirements to declare a Physics major or is it direct admit in year 1? Many schools in Ontario at least have gone a bit more towards the U.S. model of having more of a general 1st year. When I attended university eons ago you were admitted directly to your major starting in first year. More often now schools are admitting to a faculty (e.g. Sciences or Arts & Sciences) but not to a specific major. The first year is built more loosely to allow some exploration before declaring a major. As a result they may require courses across a broad range of disciplines to meet the 2nd year prerequisites for a variety of majors. Many schools have also introduced breadth requirements which were never required when I attended.

My son will be pursuing a Physics undergrad at McMaster and they have 1st year gateway programs that fulfill the prerequisites for a range of potential majors. He will be doing Chemical and Physical Sciences which encompasses the necessary courses for Chemistry, Physics, and Earth Sciences majors. It's also possible to transfer from other gateway programs if you take the requisite courses as electives. As a result since the gateway serves multiple potential majors there is some overlap in required courses. Physics majors are required to take 2 Physics and 1 Chem course while Chem students take 2 Chem and 1 Physics. If you are undecided which direction to go you will take both Physics and both Chem courses. It provides more flexibility in choosing a major for those who are undecided. In comparison Waterloo admits directly to the major but they still require 2 semesters of Chemistry with Lab for their Physics majors and vice versa for their Chemistry majors. It makes it easier to switch if you change your mind.

During the time I was a student at U of T (during the '90s), high school graduates who intend on pursuing a science program apply and are admitted into the Faculty of Arts and Sciences, where all students complete their 1st year with courses of their choosing. After the first year, the students then register to a specific Specialist and Major field, and are admitted on the 2nd year. From what I've read, the system in place now at U of T is still the same. So in the case of Physics programs (offered in the Faculty of Arts and Sciences[1]), students will complete first year intro physics course, register in POST and be admitted as a Physics specialist or Major in the 2nd year.

There are some programs in the Faculty of Arts and Sciences (e.g. Computer Science) that are limited enrollment, in which case whether the student can specialize or major in that program will depend on the grade of the required first year course. I don't believe any of the Physics programs in the Faculty of Arts and Sciences have that requirement.

Sorry for the long post, but hope this was helpful.

Aside:

[1] I wanted to also note that U of T also offers an Engineering Physics option within the Engineering Science program, offered in the Faculty of Applied Sciences & Engineering. In that case, students are admitted upon first year and complete a common 2 year curriculum. Students then specialize in a given option starting in the 3rd year.

https://engsci.utoronto.ca/
 
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  • #30
Physics is first and foremost a science that requires thinking.

If all we teach you is how others think about Physics, you will do nothing original.

But if you have a rich reservoir of knowledge of other disciplines, you stand a much better chance of finding analogues and patters that are solutions to Physics problems that others have not yet found.

It's kinda like ...

My knowledge of quantum mechanics was my biggest advantage in blast injury and ballistics. Nearly no one else in these fields really knew quantum mechanics. My knowledge of biology was my biggest advantage in tackling problems in quantum chaos. My knowledge of chemistry was most useful in my work in educational physics. But it's rarely about direct application. It's about seeing the analogies.
 
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  • #31
Dr. Courtney said:
But it's rarely about direct application. It's about seeing the analogies.
Much of the post that above quote comes from was difficult to understand the right way, but this part quoted is possibly very important.

Physics interrelates and overlaps with too many things. Cutting out Chemistry just to concentrate on Physics seems a terrible way to think, and I cannot find any better way to explain this than I had previously.
 
  • #32
Physics teaches you how atoms are moving, chemistry teaches you what atoms are doing. As the pursuit of science is the pursuit of understanding nature, I don't understand why an intro chemistry requirement is worth any concern.
 
  • #33
Marisa5 said:
Physics teaches you how atoms are moving, chemistry teaches you what atoms are doing. As the pursuit of science is the pursuit of understanding nature, I don't understand why an intro chemistry requirement is worth any concern.
Meaning is that it should be included.
 

1. Why is an introductory chemistry course required for physics majors?

An introductory chemistry course is required for physics majors because it provides a foundation in the fundamental concepts and principles of chemistry that are necessary for understanding and applying the principles of physics. Many concepts in physics, such as thermodynamics and quantum mechanics, are rooted in chemistry and require a basic understanding of chemical processes.

2. Can't I just take a more advanced physics course instead of an introductory chemistry course?

No, an introductory chemistry course is specifically designed to provide a comprehensive overview of the key principles and concepts of chemistry that are essential for understanding physics. Taking a more advanced physics course without a strong foundation in chemistry may result in a lack of understanding and hinder your progress in higher level physics courses.

3. What topics are typically covered in an introductory chemistry course for physics majors?

An introductory chemistry course for physics majors typically covers topics such as atomic structure, chemical bonding, stoichiometry, thermodynamics, and basic organic chemistry. These topics provide a solid understanding of the fundamental principles and concepts of chemistry that are necessary for success in physics courses.

4. I am not interested in chemistry, do I still need to take an introductory chemistry course for my physics major?

Yes, even if you are not interested in chemistry, an introductory chemistry course is still necessary for your physics major. As mentioned before, many concepts in physics are rooted in chemistry and a basic understanding of chemistry is essential for success in physics courses.

5. What are the benefits of taking an introductory chemistry course for physics majors?

There are several benefits of taking an introductory chemistry course for physics majors. It provides a strong foundation in chemistry that will help you understand and apply principles in physics courses. It also expands your knowledge and understanding of the natural world and can open up career opportunities in both chemistry and physics fields.

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