Are Cylindrical Polar Coordinates Generalized Coordinates? A Discussion

  • Thread starter neelakash
  • Start date
In summary, the conversation discusses whether cylindrical polar coordinates can be considered as a set of generalized coordinates. The question is deemed meaningless without a specific configuration, and it is suggested that for a rigid body, the Eulerian angles must be considered instead. The concept of generalized coordinates is also clarified. Additionally, the issue of scale factors and unit vectors in cylindrical coordinates is mentioned. The conversation ends with a request for clarification on the meaning of "generalized coordinates."
  • #1
neelakash
511
1
meaningless question(?)

I have faced a weird question: Examine if the cylindrical polar co-ordinates represent a set of genralized co-ordinates?

To me it looks a meaningless question. Unless we are given a configuration to describe,how can we be able to predict?For a point particle it may reresent---(if rho, theta and phi describe fully the configuration,each being independent of other), but for a rigid body, it certainly does not. For, we are to consider the Eulerian angles which give the space orientation of the body.

Please comment on it,so that the thing gets clarified.

(Please Note that this is not a homework problem---I am asking this to clarify my idea).
 
Last edited:
Physics news on Phys.org
  • #2
I don't know if this helps, but theta of the polar coordinates is defined with reference to the x-axis, so without having the x-axis you can't locate a specific point (x0, y0) which would be able to do so with Cartesian axes. So all (r,theta) tells us is a circular locus of points.
 
  • #3
I did not get your point.
 
  • #4
Never mind then, I don't think what I wrote really answered your question, which I have yet to figure out.
 
  • #5
If I understand the question, you must find out whether the function that transforms
coordinates into points in space is bijective. The answer is no: there are several sets of coordinates that represent the same point (r=0, fi=arbitrary).
 
  • #6
But what prevents cylindrical polar co-ordinates from being a set of generalized co-ordinates?May be this is not the only set, but how do we know if it is a valid set?

One possibility comes in my mind.We have S=(rho)(phi);so, for a fixed rotation distance, rho and phi are related by this equation.But a set of generalized co-ordinates must be independent of one another.
 
Last edited:
  • #7
Lojzek said:
If I understand the question, you must find out whether the function that transforms coordinates into points in space is bijective. The answer is no: there are several sets of coordinates that represent the same point (r=0, fi=arbitrary).
What's "fi" here? Is it theta for polar coordinates? And if you were to set "fi" to be arbitrary, isn't it apparent that you'll definitely have more than one more point that satifies that condition? The same things occurs in Cartesian coordinates with x=0 y=arbitrary.

@OP: What exactly do you mean by "generalised coordinates"? Defining it would help clear things up a lot.
 
  • #8
neelakash said:
I have faced a weird question: Examine if the cylindrical polar co-ordinates represent a set of genralized co-ordinates?

To me it looks a meaningless question. Unless we are given a configuration to describe,how can we be able to predict?For a point particle it may reresent---(if rho, theta and phi describe fully the configuration,each being independent of other), but for a rigid body, it certainly does not. For, we are to consider the Eulerian angles which give the space orientation of the body.

Please comment on it,so that the thing gets clarified.

(Please Note that this is not a homework problem---I am asking this to clarify my idea).

I don't understand your question, exactly... but using the term "generalized co-ordinates", in my mind, means either doing mechanics in a coordinate-free representation (e.g. [tex]\nabla\bullet\textbf{V}[/tex]) or using index notation without specifying which coordinate system is used (here, [tex]\partial_iV^i[/tex]).

Perhaps the question relates to how cylindrical coordinates involve scale factors when performing various differential operations becasue the unit vectors vary in space?
 
  • #9
Defennnder said:
What's "fi" here? Is it theta for polar coordinates? And if you were to set "fi" to be arbitrary, isn't it apparent that you'll definitely have more than one more point that satifies that condition? The same things occurs in Cartesian coordinates with x=0 y=arbitrary.

@OP: What exactly do you mean by "generalised coordinates"? Defining it would help clear things up a lot.

My fi is your theta: the angle between the origin-point vector and x-axis (it is called fi in our schools).
It is not true that you get different points with (r=0, fi=arbitrary)! You always get the origin (0,0) in cartesian coordinates.
 
  • #10
i owuld say no, because generalized coordinates refer to unspecified coordiante systems, but in your case, the coordinates system has been specified.
 

1. What is the purpose of asking a meaningless question?

Asking a meaningless question can serve as a thought exercise or a way to challenge traditional beliefs and assumptions. It can also help expand one's thinking and promote creativity.

2. Can a meaningless question have any value or significance?

While a meaningless question may not have a concrete answer, it can still hold value in terms of sparking curiosity and encouraging critical thinking. It can also lead to deeper discussions and perspectives.

3. How can we determine if a question is truly meaningless?

A question can be considered meaningless if it lacks relevance, purpose, or logic. It can also be subjective, as what may be meaningless to one person may hold meaning to another.

4. Is it possible for a meaningless question to have a meaningful answer?

Yes, it is possible for a meaningless question to have a meaningful answer. The answer may not directly address the question, but it can still provide insight and provoke thought.

5. Are there any benefits to asking meaningless questions in a scientific context?

Asking meaningless questions in a scientific context can lead to new discoveries and advancements. It can also challenge existing theories and promote further research and experimentation.

Similar threads

I Dot product of two vector operators in unusual coordinates
    • Quantum Physics
Replies
14
Views
1K
I On whether the motion of a Foucault pendulum bob is comparable to ballistics
    • Classical Physics
Replies
10
Views
957
I Atmospheric Density vs Altitude in an O'Neil Cylinder
    • Classical Physics
Replies
1
Views
587
Lagrange's Equation Generalized Coordinates
    • Classical Physics
Replies
4
Views
2K
Stokes' Theorem 'corollary' integral in cylindrical polar coordinates
    • Calculus and Beyond Homework Help
Replies
6
Views
1K
Polar Coordinates Conversion
    • Calculus and Beyond Homework Help
Replies
16
Views
1K
Rotation of fluid like a rigid body in a cylindrical contain
    • Mechanics
Replies
12
Views
4K
A Constructing Bondi Coordinates on General Spacetimes
    • Special and General Relativity
Replies
4
Views
1K
Triple integral using cylindrical coordinates
    • Calculus and Beyond Homework Help
Replies
1
Views
2K
2 vectors with cylindrical polar coordinates
    • Introductory Physics Homework Help
Replies
9
Views
2K

Hot Threads

Recent Insights

Back
Top