MEL Chemistry VR Lessons

Experience a new level of understanding science in VR.
28 VR lessons and tests covering the school chemistry curriculum.

Boost Learning

by making lessons more engaging and effective

Marked improvement in test scores

Significant rise in student engagement

Better understanding for difficult concepts

Increased excitement for science lessons

In-Depth Knowledge about Chemistry

Concept Development

Understanding chemistry is about developing comprehension about the core processes that take place at the molecular level. While it is all very well to know your formulas, it is certainly not enough.
There is no better to way to grasp the chemical reactions between atoms, ions and molecules, then to step inside of them and watch them unfold before your eyes.

Making the Chemistry Lessons Come Alive

Starting your lesson in the virtual lab, you will zoom in to the molecular level where you can observe and expore the chemical reactions upclose.
It can be hard to understand chemistry if you are not able to link the logic behind an action and its reaction. Having the luxury to study these processes visually makes them easy to grasp for students.

Interactive Chemistry Experiments

Virtual Reality makes it possible to replace an ordinary lab with an interactive and dynamic environment where students are able to perform experiments on atoms and molecules, and acquire hands-on knowledge about their underlying behavior. These experiments enable students to:

  • Build their own atoms and molecules
  • Determine bond energies
  • Play with electrons to study ionization energy… and much more.

Improved Concentration

Since VR-based labs disconnect students from the external world, and hence the distrations, students are able to fully focus and engage their mental energies to their lessons.

It is usual for kids to lose focus when they are studying, especially if their lessons have anything to do with complex concepts. That is the reason that our virtual chemistry lessons are only 3 – 7 minutes long which helps to keep students’ interest in the lesson and for them to thoroughly process and absorb the new information.

Select your Options

VRXOne providing Mel Chemistry in the following packages

Mel Chemistry VR Lessons in Action

List of Mel Chemistry VR Lessons

Atoms in solids
Atoms in solids
Atoms in gases
Atoms in gases
Atom structure
Atom structure
Electron orbitals
Electron orbitals
Isotopes
Isotopes
Orbital names
Orbital names
Electron configuration
Electron configuration
Atom size
Atom size
Ions
Ions
Oxygen atom

Oxygen atom

Temperature in solids
Temperature in solids
Speed distribution
Speed distribution
Speed vs kinetic energy
Speed vs kinetic energy
Temperature as kinetic energy
Temperature as kinetic energy
Thermal conductivity
Thermal conductivity
Diffusion in gases
Diffusion in gases

Crystallization
Crystallization
Solvation shell
Solvation shell
Carbon atom
Carbon atom
Carbon 14 isotope
Carbon 14 isotope
Sodium atom
Sodium atom
Nitrogen atom
Nitrogen atom
Neon atom
Neon atom
Make your atom
Make your atom
Periodic table
Periodic table
Periodic table box
Periodic table box
Atomic mass
Atomic mass
Atom size trends
Atom size trends

Air composition
Air composition
Density of helium
Density of helium
Pressure
Pressure
Pressure measurement
Pressure measurement
Gas laws
Gas laws
Charges and forces
Charges and forces
Electrostatic force
Electrostatic force
Coulomb's law
Coulomb’s law
Interactive periodic table
Interactive periodic table
Molecules
Molecules
Molecular representation
Molecular representation
Molecular formula
Molecular formula
Make Methane molecule
Make Methane molecule
Make Carbonic acid molecule
Make Carbonic acid molecule
Make Dichloroethane molecule
Make Dichloroethane molecule
Make a molecule
Make a molecule
Ionization energy
Ionization energy
Electron affinity

Electron affinity

Diffusion in liquids
Diffusion in liquids
Spherical charge
Spherical charge
Dipole
Dipole
Dipole-dipole forces
Dipole-dipole forces
Induced dipole
Induced dipole
Evaporation
Evaporation

Atom properties
Atom properties
Photon and energy levels
Photon and energy levels
Build a molecule
Build a molecule
Covalent bond in H2
Covalent bond in H2
Covalent bonds
Covalent bonds
Ionic bond
Ionic bond
Bond energy
Bond energy
Molecular vibration
Molecular vibration
VSEPR theory
VSEPR theory
Metalls
Metalls
Temperature in gases
Temperature in gases
Condensation
Condensation
Vapor pressure
Vapor pressure
Boiling
Boiling
Melting
Melting
Freezing
Freezing
Dissolution
Dissolution
Solubility
Solubility
Сations and anions
Сations and anions

More Mel Chemistry VR Lessons to come

  • Single and multiple bonds
  • Sigma bond
  • Pi bond
  • Empirical formula
  • Molecular models
  • Lewis dot structures
  • Molar mass
  • Binary compounds
  • Oxides
  • Molecular spectra
  • Mass spectrometry
  • Colorymetry
  • Molecular spectroscopy
  • Chemical equation
  • Chemical equation lab
  • Conservation of mass
  • Balancing equation
  • Balancing equation lab
  • Law of definite composition
  • Synthesis reactions
  • Decomposition reactions
  • Single replacement reactions
  • Double replacement reactions
  • Combustion
  • Bond polarity prediction
  • Dissociation
  • Dissociation constant
  • Dissociation constant lab
  • Acids
  • Bases
  • Salts
  • Hydrolysis
  • pH scale
  • Buffers
  • Neutralization
  • Strengths of acids and bases
  • Arrhenius acids
  • Arrhenius bases
  • Bronsted-Lowry definitions

.

  • Lewis definitions
  • Intermolecular forces
  • Hydrogen bonds
  • Polar molecules interaction
  • Nonpolar molecules interaction
  • Solute/solvent interaction
  • Van der Waals forces
  • Surface tension
  • Chromatography
  • Molecular solids
  • Redox reactions
  • Oxidation number
  • Oxidation number lab
  • Voltaic cell
  • Electrolysis
  • Half-cells
  • Collision theory
  • Activation energy
  • Temperature & reaction rate
  • Concentration & reaction rate
  • Measuring reaction rate
  • Surface area & reaction rate
  • Catalyst
  • Equilibrium
  • Concentration & equilibrium
  • Temperature & equilibrium
  • Pressure & equilibrium
  • Entropy
  • Non ideal gas models
  • Carbon atom
  • Alkanes
  • Alkanes naming
  • Lab alkanes naming
  • Alkenes
  • Alkenes naming
  • Alkynes
  • Alkynes naming
  • Isomers
  • Isomers lab
  • Stereomers
  • Optycal isomers
  • Cyclic saturated hydrocarbons
  • Aromatic hyrocarbons
  • Halogen substituents
  • Substitution reaction
  • Alcohols
  • Preperties of alcohols
  • Addition reactions
  • Ethers
  • Aldehydes and ketons
  • Aldehydes and ketons
  • Carboxilic acids
  • Carboxilic acids
  • Esters
  • Esterification
  • Redox in organic chemistry
  • Polymerization
  • Addition polymers
  • Condensation polymers
  • Carbohydrates
  • Amino acids
  • Peptides and proteins
  • Enzymes
  • Glycerole
  • Lipids
  • Phospholipids and waxes
  • Nucleic acids
  • Quarks
  • Radioactivity
  • Radioactive isotopes
  • Alpha radiation
  • Beta radiation
  • Gamma radiation
  • Half-life
  • Half-life lab
  • Transmutation
  • Fission
  • Fusion

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