Chemical Science International Journal

  • About
    • About the Journal
    • Submissions & Author Guideline
    • Accepted Papers
    • Editorial Policy
    • Editorial Board Members
    • Reviewers
    • Propose a Special Issue
    • Reprints
    • Subscription
    • Membership
    • Publication Ethics and Malpractice Statement
    • Digital Archiving Policy
    • Contact
  • Archives
  • Indexing
  • Publication Charge
  • Submission
  • Testimonials
  • Announcements
Advanced Search
  1. Home
  2. Archives
  3. 2021 - Volume 30 [Issue 11]
  4. Original Research Article

Submit Manuscript


Subscription



  • Home Page
  • Author Guidelines
  • Editorial Board Member
  • Editorial Policy
  • Propose a Special Issue
  • Membership

The Concentration Distance and the Average Kinetic Energy of a Diffusible Solute in its Medium

  • Mustapha Umar Abdullahi

Chemical Science International Journal, Page 1-7
DOI: 10.9734/CSJI/2021/v30i1130261
Published: 13 December 2021

  • View Article
  • Download
  • Cite
  • Statistics
  • Share

Abstract


Seven sets of diffusible samples were allowed to diffuse in their medium in order to observe how much meters of distance a given volume of sample will cover in its medium at particular condition. At the same time also to observe how much joules of average kinetic energy that given sample volume possess during the course of its traveling. After successful diffusion by using suitable apparatus, all data associated with this study was carefully observed repeatedly and recorded. In which, mean values were used. Series of findings were found including new equation Xc= Capture2.PNG  which can be used in determining this new initiative (concentration distance of a diffusible solute in its medium (Xc)).


Keywords:
  • Concentration distance
  • average kinetic energy
  • time of diffusion
  • diffusible solute
  • medium.
  • Full Article – PDF
  • Review History

How to Cite

Abdullahi, M. U. (2021). The Concentration Distance and the Average Kinetic Energy of a Diffusible Solute in its Medium. Chemical Science International Journal, 30(11), 1-7. https://doi.org/10.9734/CSJI/2021/v30i1130261
  • ACM
  • ACS
  • APA
  • ABNT
  • Chicago
  • Harvard
  • IEEE
  • MLA
  • Turabian
  • Vancouver
  • Abstract View: 858 times
    PDF Download: 160 times

Download Statistics

Downloads

Download data is not yet available.
  • Linkedin
  • Twitter
  • Facebook
  • WhatsApp
  • Telegram
Make a Submission / Login
Information
  • For Readers
  • For Authors
  • For Librarians
Current Issue
  • Atom logo
  • RSS2 logo
  • RSS1 logo


© Copyright 2010-Till Date, Chemical Science International Journal. All rights reserved.