Phase II Lab/Experiment Hosting/Re-hosting Request for Molecular Interactions - IIITH

[sravanthimodepu]

Hosting Request

• Hosting Unit(Lab) Name: Molecular Interactions
• Repository URL: https://github.com/virtual-labs/molecular-interactions-iiith/
• Branch/Tag : master/v1.1.3
• Contact Person: Sravanthi

[sravanthimodepu]

@sravanthimodepu

Hosted URL of Lab: http://mi-iiith.vlabs.ac.in Branch: Master Tag: v1.1.3

[sravanthimodepu]

Hosting Request

• Hosting Unit(Lab) Name: Molecular Interactions
• Repository URL: https://github.com/virtual-labs/molecular-interactions-iiith/
• Branch/Tag : master/v1.1.5
• Contact Person: Sravanthi/ Balamma

[pavanchow]

@sravanthimodepu

Hosted Molecular Interactions Lab URL of Lab: https://mi-iiith.vlabs.ac.in/ Branch: Master Tag: v1.1.5

Please check and approve.

[sravanthimodepu]

@pavanchow The sources are updated correctly and approved the hosted content.

[sravanthimodepu]

Repo Owner Details Name - Sravanthi GitHub handle - sravanthimodepu Email id - sravanthimodepu@vlabs.ac.in

Lab Name: Molecular Interactions Lab

List of Experiments and Repositories: | No.| Experiment Name | Experiment repository URL | Branch | Tag

1. Internuclear forces in a diatomic molecule: Optical and magnetic tweezer experiments - https://github.com/virtual-labs/exp-diatomic-molecule-iiith - main - v1.0.0
2. Molecular forces in a triatomic molecule: A magnetic tweezer experiment - https://github.com/virtual-labs/exp-triatomic-molecule-iiith - main - v1.0.0
3. Dihedral forces in a quad-atomic molecule: A magnetic tweezer experiment - https://github.com/virtual-labs/exp-quad-atomic-molecule-iiith - main - v1.0.0
4. Interatomic van der Waals forces - https://github.com/virtual-labs/exp-waals-forces-iiith - main - v1.0.0
5. Van der Waals forces between molecules - https://github.com/virtual-labs/exp-waals-forces-molecules-iiith - main - v1.0.0
6. Interatomic electrostatic forces - https://github.com/virtual-labs/exp-interatomic-electrostatic-forces-iiith - main - v1.0.0
7. Electrostatic forces between molecules - https://github.com/virtual-labs/exp-electrostatic-forces-iiith - main - v1.0.0
8. Many-body forces in a polyatomic molecule - https://github.com/virtual-labs/exp-many-body-forces-iiith - main - v1.0.0
9. Solvent viscous forces on a polyatomic molecule - https://github.com/virtual-labs/exp-solvent-viscous-forces-iiith - main - v1.0.0
10. Molecular seperation using interatomic forces: Column chromatography - https://github.com/virtual-labs/exp-interatomic-forces-iiith - main - v1.0.0
11. Radiation forces on a dielectric particle - https://github.com/virtual-labs/exp-radiation-forces-iiith - main - v1.0.0

Lab url: http://mi-iiith.vlabs.ac.in/

Introduction: Molecular forces determine the physico-chemical properties of various forms of matter such as gases, liquids and solids. The major focus of this virtual lab is to provide a thorough grounding in the fundamental concepts of molecular forces (without using quantum mechanical principles) to undergraduate students and introduce them to the optical and magnetic tweezer experimental techniques that are used to measure molecular forces.

The most stable geometry of a molecule is determined by the balance of attractive and repulsive forces between its atoms. The interactions between the atoms of a molecule can be split into two groups, bonded and non-bonded interactions. In the former group all intramolecular interactions such as bonds, angles and dihedrals are being taken care of, whereas in the latter interactions such as Van der Waals and electrostatics are considered.

The aim of this lab is to use optical and magnetic tweezer experiments to understand the nature of molecular forces and associated parameters that quantify the strengths of these atomic interactions.

Please note:

• This lab requires few Software Dependencies to run the Simulations

  1. Adobe Flash Plugin, Java1.7, Java3D 1.5.2 (The Java 3D API enables the creation of three-dimensional graphics applications and Internet-based 3D applets)
  2. Browsers Firefox 50 and it's below versions, internet explorer.
  3. IcedTea Plugin for Linux Operating System.

• We recommend the following for the smooth running of these simulations

  1. Install Adobe Flash Plugin - This will enable you to run the experiments that need Flash support. Please follow the link to install the Flash Plugin
  2. Install VirtualBox - Virtual Labs offers a free download of a customized VirtualBox with the required pre installed all the software dependencies(Java 1.7, Java3D-1.5.2, IcedTea Plugin and Adobe Flash Plugin). Please follow the link to download, install and use VirtualBox for Virtual Labs.

Objective: Molecular forces determine the physico-chemical properties of various forms of matter such as gases, liquids and solids

Course Alignment: The present lab is aligned with an introductory course on Molecular Recognition and Supramolecular Chemistry ,general topics in physical chemistry.The experiments touch on most topics covered in such courses in most curricula.

Target Audience: This virtual lab is designed to cater to physics and chemistry students both at the undergraduate and post graduate level. The undergraduate and PG chemistry syllabi cover general topics in physical chemistry such as states/properties of matter, intermolecular forces (covalent forces, van der waals interactions, electrostatic forces, hydrogen bonding, ionic bonding, and hydrophobic interactions), basic concepts in thermodynamics and shapes of molecules .

[BalammaBoya]

Lab Name : Molecular Interactions

Note : This lab experiments doesn't have any back end dependence for hosting.

[pavanchow]

@sravanthimodepu @BalammaBoya Please tag release the following experiment: https://github.com/virtual-labs/exp-many-body-forces-iiith/tree/main

[sravanthimodepu]

@pavanchow release a tag for the following experiment https://github.com/virtual-labs/exp-many-body-forces-iiith/tree/main

[pavanchow]

@sravanthimodepu

Hosted Molecular Interactions Lab URL of Lab: https://mi-iiith.vlabs.ac.in/ Branch: Master

Please check and approve.

[sravanthimodepu]

Repo Owner Details Name - Sravanthi GitHub handle - sravanthimodepu Email id - sravanthimodepu@vlabs.ac.in

Lab Name: Molecular Interactions Lab

List of Experiments and Repositories: | No.| Experiment Name | Experiment repository URL | Branch | Tag

1. Internuclear forces in a diatomic molecule: Optical and magnetic tweezer experiments - https://github.com/virtual-labs/exp-diatomic-molecule-iiith - main - v1.0.3
2. Molecular forces in a triatomic molecule: A magnetic tweezer experiment - https://github.com/virtual-labs/exp-triatomic-molecule-iiith - main - v1.0.3
3. Dihedral forces in a quad-atomic molecule: A magnetic tweezer experiment - https://github.com/virtual-labs/exp-quad-atomic-molecule-iiith - main - v1.0.3
4. Interatomic van der Waals forces - https://github.com/virtual-labs/exp-waals-forces-iiith - main - v1.0.3
5. Van der Waals forces between molecules - https://github.com/virtual-labs/exp-waals-forces-molecules-iiith - main - v1.0.3
6. Interatomic electrostatic forces - https://github.com/virtual-labs/exp-interatomic-electrostatic-forces-iiith - main - v1.0.2
7. Electrostatic forces between molecules - https://github.com/virtual-labs/exp-electrostatic-forces-iiith - main - v1.0.2
8. Many-body forces in a polyatomic molecule - https://github.com/virtual-labs/exp-many-body-forces-iiith - main - v1.0.2
9. Solvent viscous forces on a polyatomic molecule - https://github.com/virtual-labs/exp-solvent-viscous-forces-iiith - main - v1.0.2
10. Molecular seperation using interatomic forces: Column chromatography - https://github.com/virtual-labs/exp-interatomic-forces-iiith - main - v1.0.2
11. Radiation forces on a dielectric particle - https://github.com/virtual-labs/exp-radiation-forces-iiith - main - v1.0.2

Lab url: http://mi-iiith.vlabs.ac.in/

Introduction: Molecular forces determine the physico-chemical properties of various forms of matter such as gases, liquids and solids. The major focus of this virtual lab is to provide a thorough grounding in the fundamental concepts of molecular forces (without using quantum mechanical principles) to undergraduate students and introduce them to the optical and magnetic tweezer experimental techniques that are used to measure molecular forces.

The most stable geometry of a molecule is determined by the balance of attractive and repulsive forces between its atoms. The interactions between the atoms of a molecule can be split into two groups, bonded and non-bonded interactions. In the former group all intramolecular interactions such as bonds, angles and dihedrals are being taken care of, whereas in the latter interactions such as Van der Waals and electrostatics are considered.

The aim of this lab is to use optical and magnetic tweezer experiments to understand the nature of molecular forces and associated parameters that quantify the strengths of these atomic interactions.

Please note:

• This lab requires few Software Dependencies to run the Simulations

  1. Adobe Flash Plugin, Java1.7, Java3D 1.5.2 (The Java 3D API enables the creation of three-dimensional graphics applications and Internet-based 3D applets)
  2. Browsers Firefox 50 and it's below versions, internet explorer.
  3. IcedTea Plugin for Linux Operating System.

• We recommend the following for the smooth running of these simulations

  1. Install Adobe Flash Plugin - This will enable you to run the experiments that need Flash support. Please follow the link to install the Flash Plugin
  2. Install VirtualBox - Virtual Labs offers a free download of a customized VirtualBox with the required pre installed all the software dependencies(Java 1.7, Java3D-1.5.2, IcedTea Plugin and Adobe Flash Plugin). Please follow the link to download, install and use VirtualBox for Virtual Labs.

[pavanchow]

@sravanthimodepu

Hosted Molecular Interactions Lab URL of Lab: https://mi-iiith.vlabs.ac.in/ Branch: Master

Please check and approve.

[sravanthimodepu]

Repo Owner Details Name - Sravanthi GitHub handle - sravanthimodepu Email id - sravanthimodepu@vlabs.ac.in

Lab Name: Molecular Interactions Lab

List of Experiments and Repositories: | No.| Experiment Name | Experiment repository URL | Branch | Tag

1. Internuclear forces in a diatomic molecule: Optical and magnetic tweezer experiments - https://github.com/virtual-labs/exp-diatomic-molecule-iiith - main - v1.0.3
2. Molecular forces in a triatomic molecule: A magnetic tweezer experiment - https://github.com/virtual-labs/exp-triatomic-molecule-iiith - main - v1.0.3
3. Dihedral forces in a quad-atomic molecule: A magnetic tweezer experiment - https://github.com/virtual-labs/exp-quad-atomic-molecule-iiith - main - v1.0.3
4. Interatomic van der Waals forces - https://github.com/virtual-labs/exp-waals-forces-iiith - main - v1.0.3
5. Van der Waals forces between molecules - https://github.com/virtual-labs/exp-waals-forces-molecules-iiith - main - v1.0.3
6. Interatomic electrostatic forces - https://github.com/virtual-labs/exp-interatomic-electrostatic-forces-iiith - main - v1.0.2
7. Electrostatic forces between molecules - https://github.com/virtual-labs/exp-electrostatic-forces-iiith - main - v1.0.2
8. Many-body forces in a polyatomic molecule - https://github.com/virtual-labs/exp-many-body-forces-iiith - main - v1.0.2
9. Solvent viscous forces on a polyatomic molecule - https://github.com/virtual-labs/exp-solvent-viscous-forces-iiith - main - v1.0.2
10. Molecular seperation using interatomic forces: Column chromatography - https://github.com/virtual-labs/exp-interatomic-forces-iiith - main - v1.0.2
11. Radiation forces on a dielectric particle - https://github.com/virtual-labs/exp-radiation-forces-iiith - main - v1.0.2

Lab url: http://mi-iiith.vlabs.ac.in/

Introduction: Molecular forces determine the physico-chemical properties of various forms of matter such as gases, liquids and solids. The major focus of this virtual lab is to provide a thorough grounding in the fundamental concepts of molecular forces (without using quantum mechanical principles) to undergraduate students and introduce them to the optical and magnetic tweezer experimental techniques that are used to measure molecular forces.

The most stable geometry of a molecule is determined by the balance of attractive and repulsive forces between its atoms. The interactions between the atoms of a molecule can be split into two groups, bonded and non-bonded interactions. In the former group all intramolecular interactions such as bonds, angles and dihedrals are being taken care of, whereas in the latter interactions such as Van der Waals and electrostatics are considered.

The aim of this lab is to use optical and magnetic tweezer experiments to understand the nature of molecular forces and associated parameters that quantify the strengths of these atomic interactions.

Please note:

• This lab requires few Software Dependencies to run the Simulations

  1. Adobe Flash Plugin, Java1.7, Java3D 1.5.2 (The Java 3D API enables the creation of three-dimensional graphics applications and Internet-based 3D applets)
  2. Browsers Firefox 50 and it's below versions, internet explorer.
  3. IcedTea Plugin for Linux Operating System.

• We recommend the following for the smooth running of these simulations

  1. Install Adobe Flash Plugin - This will enable you to run the experiments that need Flash support. Please follow the link to install the Flash Plugin
  2. Install VirtualBox - Virtual Labs offers a free download of a customized VirtualBox with the required pre installed all the software dependencies(Java 1.7, Java3D-1.5.2, IcedTea Plugin and Adobe Flash Plugin). Please follow the link to download, install and use VirtualBox for Virtual Labs.

[pavanchow]

@sravanthimodepu

Hosted Molecular Interactions Lab URL of Lab: https://mi-iiith.vlabs.ac.in/ Branch: Master

Please check and approve.

[pavanchow]

@sravanthimodepu Reverting back to old sources as requested. URL of Lab: https://mi-iiith.vlabs.ac.in/ Branch: Master

Please check and approve.

[sravanthimodepu]

Repo Owner Details Name - Sravanthi GitHub handle - sravanthimodepu Email id - sravanthimodepu@vlabs.ac.in

Lab Name: Molecular Interactions Lab

List of Experiments and Repositories: | No.| Experiment Name | Experiment repository URL | Branch | Tag

1. Internuclear forces in a diatomic molecule: Optical and magnetic tweezer experiments - https://github.com/virtual-labs/exp-diatomic-molecule-iiith - main - v1.0.5
2. Molecular forces in a triatomic molecule: A magnetic tweezer experiment - https://github.com/virtual-labs/exp-triatomic-molecule-iiith - main - v1.0.5
3. Dihedral forces in a quad-atomic molecule: A magnetic tweezer experiment - https://github.com/virtual-labs/exp-quad-atomic-molecule-iiith - main - v1.0.5
4. Interatomic van der Waals forces - https://github.com/virtual-labs/exp-waals-forces-iiith - main - v1.0.5
5. Van der Waals forces between molecules - https://github.com/virtual-labs/exp-waals-forces-molecules-iiith - main - v1.0.5
6. Interatomic electrostatic forces - https://github.com/virtual-labs/exp-interatomic-electrostatic-forces-iiith - main - v1.0.5
7. Electrostatic forces between molecules - https://github.com/virtual-labs/exp-electrostatic-forces-iiith - main - v1.0.4
8. Many-body forces in a polyatomic molecule - https://github.com/virtual-labs/exp-many-body-forces-iiith - main - v1.0.4
9. Solvent viscous forces on a polyatomic molecule - https://github.com/virtual-labs/exp-solvent-viscous-forces-iiith - main - v1.0.4
10. Molecular seperation using interatomic forces: Column chromatography - https://github.com/virtual-labs/exp-interatomic-forces-iiith - main - v1.0.4
11. Radiation forces on a dielectric particle - https://github.com/virtual-labs/exp-radiation-forces-iiith - main - v1.0.4

Lab url: http://mi-iiith.vlabs.ac.in/

[pavanchow]

@sravanthimodepu

Hosted Molecular Interactions Lab URL of Lab: https://mi-iiith.vlabs.ac.in/ Branch: Master

Please check and approve.

[sravanthimodepu]

@pavanchow

The sources are updated and working properly. Hence approved.

Note: Content is working fine but the simulations are not working even which was not working in the original source also.

[pavanchow]

@BalammaBoya Could you please not edit the comments? Please post any new updates or corrections in a new comment.

[BalammaBoya]

@pavanchow : added screen short for reference.

Note: Content is working fine but the simulations are not working even which was not working in the original source also.

[BalammaBoya]

Repo Owner Details Name - Sravanthi GitHub handle - sravanthimodepu Email id - sravanthimodepu@vlabs.ac.in

Lab Name: Molecular Interactions Lab

List of Experiments and Repositories: | No.| Experiment Name | Experiment repository URL | Branch | Tag

1. Internuclear forces in a diatomic molecule: Optical and magnetic tweezer experiments - https://github.com/virtual-labs/exp-diatomic-molecule-iiith - main - v1.0.7
2. Molecular forces in a triatomic molecule: A magnetic tweezer experiment - https://github.com/virtual-labs/exp-triatomic-molecule-iiith - main - v1.0.7
3. Dihedral forces in a quad-atomic molecule: A magnetic tweezer experiment - https://github.com/virtual-labs/exp-quad-atomic-molecule-iiith - main - v1.0.7
4. Interatomic van der Waals forces - https://github.com/virtual-labs/exp-waals-forces-iiith - main - v1.0.7
5. Van der Waals forces between molecules - https://github.com/virtual-labs/exp-waals-forces-molecules-iiith - main - v1.0.8
6. Interatomic electrostatic forces - https://github.com/virtual-labs/exp-interatomic-electrostatic-forces-iiith - main - v1.0.7
7. Electrostatic forces between molecules - https://github.com/virtual-labs/exp-electrostatic-forces-iiith - main - v1.0.6
8. Many-body forces in a polyatomic molecule - https://github.com/virtual-labs/exp-many-body-forces-iiith - main - v1.0.6
9. Solvent viscous forces on a polyatomic molecule - https://github.com/virtual-labs/exp-solvent-viscous-forces-iiith - main - v1.0.6
10. Molecular seperation using interatomic forces: Column chromatography - https://github.com/virtual-labs/exp-interatomic-forces-iiith - main - v1.0.6
11. Radiation forces on a dielectric particle - https://github.com/virtual-labs/exp-radiation-forces-iiith - main - v1.0.6

Lab url: http://mi-iiith.vlabs.ac.in/

Introduction: Molecular forces determine the physico-chemical properties of various forms of matter such as gases, liquids and solids. The major focus of this virtual lab is to provide a thorough grounding in the fundamental concepts of molecular forces (without using quantum mechanical principles) to undergraduate students and introduce them to the optical and magnetic tweezer experimental techniques that are used to measure molecular forces.

The most stable geometry of a molecule is determined by the balance of attractive and repulsive forces between its atoms. The interactions between the atoms of a molecule can be split into two groups, bonded and non-bonded interactions. In the former group all intramolecular interactions such as bonds, angles and dihedrals are being taken care of, whereas in the latter interactions such as Van der Waals and electrostatics are considered.

The aim of this lab is to use optical and magnetic tweezer experiments to understand the nature of molecular forces and associated parameters that quantify the strengths of these atomic interactions.

Please note: The simulations of this lab have some of the following software dependencies - Browsers - Firefox 50 and lower versions, Internet Explorer Software - Adobe Flash Plugin, Java1.7, Java3D-1.5.2, and IcedTea Plugin.

We recommend you to use our customized Virtual Box for the smooth running of these simulations.

Install VirtualBox - Virtual Labs offers a free download of a customized VirtualBox with the required pre-installed software dependencies (Java 1.7, Java3D-1.5.2, IcedTea Plugin, and Adobe Flash Plugin). Please follow the link to download, install VirtualBox for easy use of Virtual Labs.

[BalammaBoya]

@pavanchow Could you rehost the lab with updated tags.

Note: This release consist of "Fix of virutal box url on all simulation page"

Lab Name: Molecular Interactions Lab

List of Experiments and Repositories: | No.| Experiment Name | Experiment repository URL | Branch | Tag

1. Internuclear forces in a diatomic molecule: Optical and magnetic tweezer experiments - https://github.com/virtual-labs/exp-diatomic-molecule-iiith - main - v1.0.7
2. Molecular forces in a triatomic molecule: A magnetic tweezer experiment - https://github.com/virtual-labs/exp-triatomic-molecule-iiith - main - v1.0.7
3. Dihedral forces in a quad-atomic molecule: A magnetic tweezer experiment - https://github.com/virtual-labs/exp-quad-atomic-molecule-iiith - main - v1.0.7
4. Interatomic van der Waals forces - https://github.com/virtual-labs/exp-waals-forces-iiith - main - v1.0.7
5. Van der Waals forces between molecules - https://github.com/virtual-labs/exp-waals-forces-molecules-iiith - main - v1.0.8
6. Interatomic electrostatic forces - https://github.com/virtual-labs/exp-interatomic-electrostatic-forces-iiith - main - v1.0.7
7. Electrostatic forces between molecules - https://github.com/virtual-labs/exp-electrostatic-forces-iiith - main - v1.0.6
8. Many-body forces in a polyatomic molecule - https://github.com/virtual-labs/exp-many-body-forces-iiith - main - v1.0.6
9. Solvent viscous forces on a polyatomic molecule - https://github.com/virtual-labs/exp-solvent-viscous-forces-iiith - main - v1.0.6
10. Molecular seperation using interatomic forces: Column chromatography - https://github.com/virtual-labs/exp-interatomic-forces-iiith - main - v1.0.6
11. Radiation forces on a dielectric particle - https://github.com/virtual-labs/exp-radiation-forces-iiith - main - v1.0.6

Lab url: http://mi-iiith.vlabs.ac.in/

Introduction: Molecular forces determine the physico-chemical properties of various forms of matter such as gases, liquids and solids. The major focus of this virtual lab is to provide a thorough grounding in the fundamental concepts of molecular forces (without using quantum mechanical principles) to undergraduate students and introduce them to the optical and magnetic tweezer experimental techniques that are used to measure molecular forces.

The most stable geometry of a molecule is determined by the balance of attractive and repulsive forces between its atoms. The interactions between the atoms of a molecule can be split into two groups, bonded and non-bonded interactions. In the former group all intramolecular interactions such as bonds, angles and dihedrals are being taken care of, whereas in the latter interactions such as Van der Waals and electrostatics are considered.

The aim of this lab is to use optical and magnetic tweezer experiments to understand the nature of molecular forces and associated parameters that quantify the strengths of these atomic interactions.

Please note: The simulations of this lab have some of the following software dependencies - Browsers - Firefox 50 and lower versions, Internet Explorer Software - Adobe Flash Plugin, Java1.7, Java3D-1.5.2, and IcedTea Plugin.

We recommend you to use our customized Virtual Box for the smooth running of these simulations.

Install VirtualBox - Virtual Labs offers a free download of a customized VirtualBox with the required pre-installed software dependencies (Java 1.7, Java3D-1.5.2, IcedTea Plugin, and Adobe Flash Plugin). Please follow the link to download, install VirtualBox for easy use of Virtual Labs.

[pavanchow]

@BalammaBoya

Hosted Molecular Interactions Lab URL of Lab: https://mi-iiith.vlabs.ac.in/ Branch: Master

Please check and approve.

[BalammaBoya]

@pavanchow Introduction page content is not updated, Could you please update with content below :

Introduction: Molecular forces determine the physico-chemical properties of various forms of matter such as gases, liquids and solids. The major focus of this virtual lab is to provide a thorough grounding in the fundamental concepts of molecular forces (without using quantum mechanical principles) to undergraduate students and introduce them to the optical and magnetic tweezer experimental techniques that are used to measure molecular forces.

The most stable geometry of a molecule is determined by the balance of attractive and repulsive forces between its atoms. The interactions between the atoms of a molecule can be split into two groups, bonded and non-bonded interactions. In the former group all intramolecular interactions such as bonds, angles and dihedrals are being taken care of, whereas in the latter interactions such as Van der Waals and electrostatics are considered.

The aim of this lab is to use optical and magnetic tweezer experiments to understand the nature of molecular forces and associated parameters that quantify the strengths of these atomic interactions.

Please note: The simulations of this lab have some of the following software dependencies - Browsers - Firefox 50 and lower versions, Internet Explorer Software - Adobe Flash Plugin, Java1.7, Java3D-1.5.2, and IcedTea Plugin.

We recommend you to use our customized Virtual Box for the smooth running of these simulations.

Install VirtualBox - Virtual Labs offers a free download of a customized VirtualBox with the required pre-installed software dependencies (Java 1.7, Java3D-1.5.2, IcedTea Plugin, and Adobe Flash Plugin). Please follow the link to download, install VirtualBox for easy use of Virtual Labs.

[pavanchow]

@BalammaBoya

Hosted Molecular Interactions Lab URL of Lab: https://mi-iiith.vlabs.ac.in/ Branch: Master

Please check and approve.

[BalammaBoya]

@pavanchow Hosted source is working fine and It's Approved.