How Do Forces Influence the Shape of Water and Mercury Drops on Glass?

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Homework Help Overview

The discussion revolves around understanding how forces influence the shape of fluid drops, specifically water and mercury, when placed on a solid surface. Participants are exploring the concepts of contact angles and the resultant forces acting on the fluids.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants are attempting to identify the system of forces affecting the shape of fluid drops and questioning how these forces influence the contact angle. There is also a focus on relating surface tension, curvature, and internal pressure in the context of fluid shapes.

Discussion Status

The discussion is active with participants expressing interest in both the contact angle and the overall shape of the drops. Some have shared resources for further reading, while others are prompting for deeper analysis of the forces involved.

Contextual Notes

There are indications of varying levels of familiarity with the concepts, particularly regarding contact angles and the analysis of pressure in bubbles. Participants are encouraged to share knowledge and clarify their understanding of the topic.

pranjal verma
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Member advised to use the formatting template for all homework help requests
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I am trying to understand how fluids form particular shapes when put on a solid.
  1. In the two figures,what are we taking as a system for the forces?
  2. How the resultant of the forces influences the shape of the different fluids?
 

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Hi,

Do not erase the template ! You have already found something, so start from there!
 
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pranjal verma said:
I am trying to understand how fluids form particular shapes when put on a solid.
There are two parts to this:
- the forces that result in the contact angle
- the forces that control the shape of the surface elsewhere
Are you interested in analysing both of those or just one?
For the latter, consider a horizontal slice at some height. Can you relate the surface tension, the curvature and the internal pressure? (Are you familiar with the analysis of pressure in bubbles?)
 
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haruspex said:
There are two parts to this:
- the forces that result in the contact angle
- the forces that control the shape of the surface elsewhere
Are you interested in analysing both of those or just one?
For the latter, consider a horizontal slice at some height. Can you relate the surface tension, the curvature and the internal pressure? (Are you familiar with the analysis of pressure in bubbles?)
I am Interested in determining the system on which the forces are acting and how the forces influence the contact angle of the drop.(I.e why liquid forms a specific contact angle due to resultants of all forces acting on it?)
 
pranjal verma said:
I am Interested in determining the system on which the forces are acting and how the forces influence the contact angle of the drop.(I.e why liquid forms a specific contact angle due to resultants of all forces acting on it?)
I might have been of help with the shape elsewhere but I know little about contact angles.
Have you read this https://en.m.wikipedia.org/wiki/Contact_angle?
 
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haruspex said:
I might have been of help with the shape elsewhere but I know little about contact angles.
Have you read this https://en.m.wikipedia.org/wiki/Contact_angle?
You can write what ever you know about shape of drops,I will like to learn it as well.
 
pranjal verma said:
You can write what ever you know about shape of drops,I will like to learn it as well.
Consider a horizontal disc of the drop, height y, thickness dy, radius x.
What equations can you write relating the these to y', y", density, surface tension etc?
 

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