science

ATOMENCY

The interactive chemistry platform built for K-12 teachers and students.

Explore all 118 elements, build molecules with drag-and-drop, visualize 3D molecular geometry, simulate reaction kinetics, and model nuclear decay — all aligned with national science education standards.

auto_awesome What is Atomency?

Atomency is a free, interactive chemistry simulation tool designed to make learning chemistry visual and engaging. Whether you're a teacher building lesson plans around NGSS standards or a student exploring atomic structure for the first time, Atomency gives you hands-on tools that bring abstract concepts to life.

dashboard Platform Capabilities

groups Who It's For

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Chemistry Teachers

Aligned with NGSS HS-PS1 standards. Use as a classroom demonstration tool or assign students hands-on exploration activities.

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High School Students

Build molecules, explore the periodic table, and visualize reactions interactively. Learn by doing instead of memorizing.

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Curious Learners

No chemistry background needed. Start with the periodic table, build your first molecule, and discover how atoms interact.

Ready to explore chemistry?

Jump into the Molecular Builder and start building your first molecule.

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Created by

Ky'lin Spears

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Atoms: 0
Bonds: 0
zoom_in 100%
No molecule selected
298 K
1.0 atm

Inspector

Select an atom or molecule to inspect properties
bolt Reaction Kinetics
Aligned with national science education standards
Collisions
0
Reactions
0
P(react)
0%
Speed
0 u
Reaction Type
298 K
Higher T → faster particles → more collisions → higher rate
50
50
More reactant particles → more collisions → higher rate
Catalyst lowers activation energy without being consumed
Energy Diagram
Reaction Rate
Reactions Collisions
Standards Alignment
HS-PS1-5: Effects of temperature and concentration on reaction rate
HS-PS1-6: Refining conditions to increase products at equilibrium (Le Chatelier's principle)
radio_button_checked Nuclear Decay
Aligned with national science education standards
Protons (Z)
92
Neutrons (N)
146
Mass (A)
238
Half-Life
4.5 Gyr
Select Isotope
Custom Isotope
Nuclear Equation
Perform a decay to see the equation
Decay Chain
Standards Alignment
HS-PS1-8: Develop models to illustrate the changes in the composition of the nucleus of the atom and the energy released during the processes of fission, fusion, and radioactive decay.
Decay Types Reference
α Alpha Z−2, A−4 (emits ⁴He)
β⁻ Beta-minus Z+1, A same (n→p+e⁻)
β⁺ Beta-plus Z−1, A same (p→n+e⁺)
EC Electron Capture Z−1, A same
γ Gamma No Z/A change (energy)

Periodic Table

science

ATOMENCY

Interactive chemistry simulation platform built for K-12 education. Covering 118 elements, molecular building, 3D geometry, reaction kinetics, and nuclear decay — aligned with national science education standards.

dashboard Features

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Interactive Periodic Table

All 118 elements with hover animations and detailed data panels. Explore atomic mass, electron configuration, electronegativity, ionization energy, and category groupings in an intuitive grid layout.

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Molecular Builder

Build any molecule with drag-and-drop atoms on an interactive canvas. Automatic bond formation based on valence electrons, real-time formula generation, and molecular weight calculation.

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VSEPR Geometry Visualization

3D molecular geometry prediction using VSEPR theory. Atoms snap into correct spatial arrangements — linear, trigonal planar, tetrahedral, and more — with lone pair visualization and bond angle labels.

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Molecule Inspector

Deep analysis of built molecules including partial charges, oxidation states, formal charges, and dipole moments. Click any atom to inspect its electronic environment and bonding character.

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Export / Import

Save molecular structures as PNG images or JSON data files. Import previously saved molecules with full multi-molecule support. Share your work across sessions and with classmates.

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Reaction Kinetics Simulator

Simulate chemical reactions with adjustable temperature and concentration controls. Animated particle collisions, real-time energy diagrams, activation energy visualization, and Le Chatelier's principle demonstrations.

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Nuclear Decay Simulator

Visualize alpha, beta, and gamma decay with real half-life data. Watch decay chains unfold in real time, track isotope transformations, and observe how unstable nuclei reach stability.

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Reaction Builder

Select atoms and compounds to see balanced chemical reactions and their physical outcomes. Observe state changes, energy transfer, gas evolution, and precipitate formation.

verified National Standards Alignment

Atomency covers the full scope of Science Education Standards HS-PS1: Matter and Its Interactions. The table below maps each performance expectation to the specific Atomency features that address it.

Standard Performance Expectation Atomency Feature
HS-PS1-1 Use the periodic table as a model to predict the relative properties of elements based on the patterns of electrons in the outermost energy level of atoms. Interactive Periodic Table — element cards display electron configuration, electronegativity trends, and category groupings with visual color mapping
HS-PS1-2 Construct and revise an explanation for the outcome of a simple chemical reaction based on the outermost electron states of atoms, trends in the periodic table, and knowledge of the patterns of chemical properties. Molecular Builder + Reaction Builder — build molecules, observe bond formation from valence electrons, and see reaction outcomes with physical state changes
HS-PS1-3 Plan and conduct an investigation to gather evidence to compare the structure of substances at the bulk scale to infer the strength of electrical forces between particles. Molecule Inspector — partial charges, dipole moments, and electronegativity differences reveal the strength of intermolecular forces
HS-PS1-4 Develop a model to illustrate that the release or absorption of energy from a chemical reaction system depends upon the changes in total bond energy. Reaction Kinetics Simulator — energy diagrams showing activation energy, enthalpy changes, and exothermic vs. endothermic pathways
HS-PS1-5 Apply scientific principles and evidence to provide an explanation about the effects of changing the temperature or concentration of the reacting particles on the rate at which a reaction occurs. Reaction Kinetics Simulator — adjustable temperature and concentration sliders with real-time collision frequency and rate visualization
HS-PS1-6 Refine the design of a chemical system by specifying a change in conditions that would produce increased amounts of products at equilibrium. Reaction Kinetics Simulator — Le Chatelier's principle demonstrations showing equilibrium shifts with temperature and concentration changes
HS-PS1-7 Use mathematical representations to support the claim that atoms, and therefore mass, are conserved during a chemical reaction. Molecular Builder + Reaction Builder — real-time atom counts, molecular weight calculations, and balanced equation display demonstrate conservation of mass
HS-PS1-8 Develop models to illustrate the changes in the composition of the nucleus of the atom and the energy released during the processes of fission, fusion, and radioactive decay. Nuclear Decay Simulator — alpha, beta, and gamma decay visualization with real half-life data, decay chains, and nucleus composition tracking
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Created by

Ky'lin Spears

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Privacy Policy

Last updated: February 15, 2026

Introduction

Atomency ("we," "us," "our," or "Company") is committed to protecting your privacy. This Privacy Policy explains how we collect, use, disclose, and safeguard your information when you use our educational chemistry simulation platform.

Information We Collect

We may collect information about you in a variety of ways. The information we may collect on the platform includes:

  • Browser and Device Information: We automatically collect certain technical information such as your browser type, IP address, and device information.
  • Usage Data: We track how you interact with the platform, including pages visited, features used, and time spent in simulations.
  • Cookies and Similar Technologies: We use cookies to enhance your experience and understand usage patterns.
  • Information You Provide: Any data you voluntarily share, such as exported molecular structures or feedback.

How We Use Your Information

We use the information we collect to:

  • Provide, maintain, and improve the Atomency platform
  • Understand user preferences and optimize the learning experience
  • Analyze platform performance and troubleshoot technical issues
  • Generate anonymous, aggregated usage statistics for educational research
  • Respond to user inquiries and provide customer support

Data Protection

We implement appropriate technical and organizational measures to protect your personal information against unauthorized access, alteration, disclosure, or destruction. However, no method of transmission over the Internet or electronic storage is completely secure.

Third-Party Services

Atomency may use third-party service providers for analytics, hosting, and other functions. These providers are obligated to maintain the confidentiality and security of your information and are prohibited from using it for purposes other than those specified by Atomency.

Children's Privacy

Atomency is designed for educational use by students and teachers. We do not knowingly collect personal information from children under 13 without parental consent. If we become aware that we have collected such information without consent, we will take steps to delete it promptly.

Your Rights

Depending on your jurisdiction, you may have the right to:

  • Access the personal information we hold about you
  • Request correction or deletion of your information
  • Opt-out of certain data collection practices
  • Request portability of your data

Contact Us

If you have questions about this Privacy Policy or our privacy practices, please contact us at help@atomency.com.

Changes to This Policy

We may update this Privacy Policy from time to time. We will notify you of any changes by posting the new Privacy Policy on this page and updating the "Last Updated" date above.

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Terms of Use

Effective Date: Feb 12th

Welcome to Atomency.

Atomency is an educational platform designed to support instruction in chemistry and molecular modeling. By accessing or using this website, you agree to the following terms.

shield Intellectual Property

All content, software, source code, algorithms, design elements, molecular modeling systems, and related materials on this website are the intellectual property of Ky'lin Spears, unless otherwise stated.

This includes, but is not limited to:

  • The molecular modeling engine
  • Reaction simulator
  • Nuclear decay algorithms
  • Data structures and computational logic
  • User interface design and layout

Unauthorized reproduction, redistribution, modification, reverse engineering, or commercial use of this software or its components without prior written permission is strictly prohibited.

check_circle Permitted Use

Atomency may be used for educational and instructional purposes within classrooms or academic environments.

You may:

  • Access and use the platform for learning
  • Use generated molecule exports for classroom instruction

You may not:

  • Copy or replicate the source code
  • Rehost or redistribute the platform
  • Sell or license the software
  • Claim authorship of the software or its components

warning No Warranty

This platform is provided for educational use. While efforts are made to ensure accuracy and reliability, no guarantees are made regarding completeness, scientific accuracy in all edge cases, or uninterrupted availability.

block Limitation of Liability

The creator of Atomency shall not be held liable for any damages resulting from the use or inability to use this platform.

edit_note Modifications

These terms may be updated periodically. Continued use of the platform constitutes acceptance of any revised terms.

mail Contact

For permissions, academic partnerships, or inquiries, contact: help@atomency.com

© 2026 Ky'lin Spears. All rights reserved.