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Elastic Collisions: Case Study01:15

Elastic Collisions: Case Study

Elastic collision of a system demands conservation of both momentum and kinetic energy. To solve problems involving one-dimensional elastic collisions between two objects, the equations for conservation of momentum and conservation of internal kinetic energy can be used. For the two objects, the sum of momentum before the collision equals the total momentum after the collision. An elastic collision conserves internal kinetic energy, and so the sum of kinetic energies before the collision equals...
Types of Collisions - II01:19

Types of Collisions - II

When two or more objects collide with each other, they can stick together to form one single composite object (after collision). The total mass of the object after the collision is the sum of the masses of the original objects, and it moves with a velocity dictated by the conservation of momentum. Although the system's total momentum remains constant, the kinetic energy decreases, and thus such a collision is an inelastic collision. Most of the collisions between objects in daily life are...
Abrasion Resistance of Concrete01:23

Abrasion Resistance of Concrete

Abrasion resistance is an essential characteristic of concrete that determines its durability and longevity under various wear conditions. Concrete surfaces are vulnerable to different types of abrasion. For instance, surfaces may wear down due to the constant movement of vehicles or be eroded by solids carried in water, as seen in concrete canal linings. Specific tests are conducted to measure the abrasion resistance of concrete.
One such test is the revolving disc test, where three plates...
Types Of Collisions - I01:04

Types Of Collisions - I

When two objects come in direct contact with each other, it is called a collision. During a collision, two or more objects exert forces on each other in a relatively short amount of time. A collision can be categorized as either an elastic or inelastic collision. If two or more objects approach each other, collide and then bounce off, moving away from each other with the same relative speed at which they approached each other, the total kinetic energy of the system is said to be conserved. This...
Elastic Collisions: Introduction01:00

Elastic Collisions: Introduction

An elastic collision is one that conserves both internal kinetic energy and momentum. Internal kinetic energy is the sum of the kinetic energies of the objects in a system. Truly elastic collisions can only be achieved with subatomic particles, such as electrons striking nuclei. Macroscopic collisions can be very nearly, but not quite, elastic, as some kinetic energy is always converted into other forms of energy such as heat transfer due to friction and sound. An example of a nearly...
Types of Impact01:30

Types of Impact

Impacts can be classified in various forms, primarily under two subgroups: central impact and oblique impact. A central impact occurs when two objects collide head-on, possessing opposite velocities aligned along the line of impact. Conversely, an oblique impact occurs when two objects collide at an angle, resulting in a modification of both direction and velocity.
The coefficient of restitution is a metric for understanding the dynamics of impacts. It quantifies the ratio of relative velocity...

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Related Experiment Video

Updated: May 15, 2026

Structural Design and Manufacturing of a Cruiser Class Solar Vehicle
14:57

Structural Design and Manufacturing of a Cruiser Class Solar Vehicle

Published on: January 30, 2019

InChIKey collision resistance: an experimental testing.

Igor Pletnev1, Andrey Erin, Alan McNaught

  • 1Department of Chemistry, Lomonosov Moscow State University, 119991, Moscow, Russia. inchi103@gmail.com.

Journal of Cheminformatics
|December 22, 2012
PubMed
Summary
This summary is machine-generated.

InChIKey, a hashed version of InChI, provides robust collision resistance for chemical databases. Computational experiments confirm its real-world performance aligns with theoretical expectations for indexing and searching chemical structures.

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Area of Science:

  • Computational Chemistry
  • Cheminformatics
  • Data Science

Background:

  • InChIKey is a compact, hashed representation of InChI, designed for efficient internet and database searching.
  • It uses an SHA-256 hash, with the first block encoding the molecular skeleton and the second encoding isomerism.
  • While intended as a unique identifier, InChIKey can occasionally have collisions (multiple InChIs mapping to one InChIKey).

Purpose of the Study:

  • To computationally evaluate the real-world collision resistance of InChIKey.
  • To compare experimental InChIKey collision data against theoretical predictions.
  • To validate the suitability of InChIKey for its intended applications in chemical information systems.

Main Methods:

  • Statistical analysis of InChIKey characteristics across datasets of varying sizes.
  • Exhaustive direct testing of the second block (isomerism) using Spongistatin I stereoisomers.
  • Generation of over 3x10^10 InChIKeys for the first block (molecular skeleton) using custom software.
  • Comparison of experimental frequencies of four-letter sequences in the first block against theoretical distributions.

Main Results:

  • Observed collision resistance of InChIKey closely matches theoretical expectations.
  • Statistical behavior of both the first (skeleton) and second (isomerism) blocks aligns with predictions.
  • The extensive testing supports the reliability of InChIKey for its designed purpose.

Conclusions:

  • InChIKey exhibits reliable collision resistance suitable for typical database and internet searching applications.
  • Computational experiments validate the design principles and performance of InChIKey.
  • The findings confirm InChIKey as a practical and effective tool in cheminformatics.