46 Propriétés Majeures de l'Eau (H₂O)

46 Major Properties of Water (H₂O)

Since my encounter with the water frequency H2O at the end of 2019 following my study on the frequency of 432 Hz, I have noticed that the subject of water always comes up since it is essential to the development of organic life.
It is therefore important to understand what water is as a primordial element.
How this element reacts, its properties and characteristics to better understand its essence.

Here is a list to help you better understand the aspects of water, divided into specific categories. I found four that can combine several properties:

-Fundamental physical properties (15 properties)
-The main chemical properties (12 properties)
-Essential biological properties (11 properties)
- Environmental and geological properties (8 properties)

🔬 FUNDAMENTAL PHYSICAL PROPERTIES (15 properties)

1. States of matter

  • Detail : The only natural substance existing in 3 states at Earth temperature
  • Example : Ice in your freezer, tap water, steam from your kettle
  • Importance : Water cycle, meteorology

2. Melting point (0°C at 1 atm)

  • Detail : Solid-liquid transition temperature
  • Example : Melting glaciers in spring, ice cubes melting
  • Special feature : Reference standard for the Celsius scale

3. Boiling point (100°C at 1 atm)

  • Detail : Liquid-gas transition temperature
  • Example : Cooking pasta, pressure cooker (higher temperature under pressure)
  • Application : Sterilization, distillation

4. Maximum density at 4°C (1.0000 g/cm³)

  • Detail : Single anomaly - maximum density not at melting point
  • Example : Lakes frozen on the surface but liquid at depth (4°C at the bottom)
  • Consequence : Survival of aquatic fauna in winter

5. Expansion during freezing (+9% volume)

  • Detail : Unlike most substances
  • Example : Bottles exploding in the freezer, potholes forming
  • Application : Frost breaking of rocks, plumbing

6. High specific heat (4.18 J/g·°C)

  • Detail : Resistance to temperature change
  • Example : Oceans that moderate the climate, human body that maintains 37°C
  • Comparison : 4x higher than most solids

7. Latent heat of vaporization (2260 J/g)

  • Detail : Huge energy needed to go from liquid to gas
  • Example : Perspiration that cools the body, evaporative air conditioning
  • Impact : Natural cooling system of living beings

8. Latent heat of fusion (334 J/g)

  • Detail : Energy needed to melt ice
  • Example : Ice cubes that cool your drink for a long time
  • Application : Ice preservation, industrial cooling

9. High surface tension (72.8 mN/m at 20°C)

  • Detail : Cohesive forces between molecules on the surface
  • Example : Insects walking on water, drops beading
  • Application : Lung function (surfactant), lavage

10. Capillarity

  • Detail : Spontaneous rise in thin tubes
  • Example : Sap rising in trees, sponge absorbing
  • Mechanism : Adhesion + cohesion + surface tension

11. Dynamic viscosity (1.002 mPa·s at 20°C)

  • Detail : Flow resistance
  • Example : More viscous than alcohol, less than honey
  • Variation : Decreases with temperature (hot water flows better)

12. Low compressibility (4.6 × 10⁻¹⁰ Pa⁻¹)

  • Detail : Quasi-incompressible under normal conditions
  • Example : Hydraulic systems (car brake), hydraulic press
  • Application : Power transmission, shock absorbers

13. Thermal conductivity (0.598 W/m·K at 20°C)

  • Detail : Ability to transport heat
  • Example : Hot water radiators, engine cooling
  • Comparison : Good for a liquid, 1500x less than copper

14. Refractive index (1.333)

  • Detail : Deflection of light passing through water
  • Example : Stick that appears broken in water, water magnifiers
  • Application : Liquid lenses, underwater optics

15. Acoustic properties (speed of sound: 1482 m/s)

  • Detail : Propagation of sound waves
  • Example : Sonar, ultrasound, whale communication
  • Special feature : 4x faster than in the air


⚗️ MAIN CHEMICAL PROPERTIES (12 properties)

16. Polar molecular structure (angle 104.5°)

  • Detail : Bent geometry, partial loads δ+ and δ-
  • Example : Molecular magnet that orients itself in an electric field
  • Consequence : Basis of all other chemical properties

17. Hydrogen bonds

  • Detail : Strong intermolecular attractions (20 kJ/mol)
  • Example : Water cohesion, DNA structure, proteins
  • Impact : Responsible for the unique properties of water

18. Auto-ionization (Kw = 10⁻¹⁴ at 25°C)

  • Detail : H₂O ⇌ H⁺ + OH⁻ spontaneously
  • Example : Basis of the concept of pH, neutrality at pH 7
  • Application : All acid-base chemistry

19. Universal Solvent Power

  • Detail : Dissolves more substances than any other liquid
  • Example : Table salt, sugar, alcohol dissolve
  • Mechanism : Hydration of ions by polar molecules

20. High dielectric constant (ε = 81)

  • Detail : Reduces forces between electrical charges
  • Example : NaCl dissociates into Na⁺ and Cl⁻ in water
  • Comparison : 81x more efficient than vacuum

21. Hydration of ions

  • Detail : Formation of hydration spheres around the charges
  • Example : Na⁺ surrounded by 6 oriented water molecules
  • Importance : Solubility, ion transport, cell life

22. Hydrolysis

  • Detail : Water addition cleavage reactions
  • Example : Digestion (proteins → amino acids), soap that cleans
  • Enzyme : Hydrolases catalyze these vital reactions

23. Condensation reactions (elimination of water)

  • Detail : Formation of bonds by loss of H₂O
  • Example : Protein synthesis, formation of sucrose
  • Equilibrium : Opposite of hydrolysis

24. Amphoteric behavior

  • Detail : Can be acid or base depending on the context
  • Example : Accepts H⁺ from acids, gives H⁺ to bases
  • Flexibility : Adaptation to environmental conditions

25. Oxidation-reduction potential

  • Detail : Can be oxidized (O₂ + 4H⁺) or reduced (H₂)
  • Example : Electrolysis (H₂O → H₂ + ½O₂), photosynthesis
  • Application : Fuel cell, hydrogen production

26. Formation of complexes

  • Detail : Ligand in metal complexes
  • Example : [Cu(H₂O)₆]²⁺ gives the blue color to copper sulfate
  • Role : Metalloproteins, enzymatic catalysis

27. Chemical stability

  • Detail : Very stable, high dissociation energy (930 kJ/mol)
  • Example : Only decomposes at very high temperatures (>2000°C)
  • Consequence : Persistence in the environment

🧬 ESSENTIAL BIOLOGICAL PROPERTIES (11 properties)

28. Total biocompatibility

  • Detail : Non-toxic, essential to all known life forms
  • Example : 60-70% of human body weight, 95% of a jellyfish
  • Universality : Present in all living organisms

29. Universal biological solvent

  • Detail : Medium of all biochemical reactions
  • Example : Blood, lymph, cytoplasm, sap
  • Function : Transport of nutrients, elimination of waste

30. Body thermal regulation

  • Detail : Thermal buffer thanks to its specific heat
  • Example : Homeothermy, perspiration, blood circulation
  • Mechanism : Evaporation consumes a lot of energy

31. Structure of biomolecules

  • Detail : Secondary and tertiary form of proteins, DNA
  • Example : DNA double helix stabilized by H-bonds, protein folding
  • Importance : Biological function related to structure

32. Digestive hydrolysis

  • Detail : Digestion = hydrolysis of food macromolecules
  • Example : Starch → glucose, proteins → amino acids
  • Enzymes : Amylases, proteases require H₂O

33. Photosynthesis (electron donor)

  • Detail : Source of electrons to reduce CO₂
  • Equation : 6CO₂ + 6H₂O + light → C₆H₁₂O₆ + 6O₂
  • Impact : Basis of life on Earth, production of O₂

34. Membrane transport

  • Detail : Osmosis, diffusion, active transport
  • Example : Cellular hydration, plant turgor pressure
  • Regulation : Vital hydro-electrolytic balance

35. Biological lubrication

  • Detail : Component of synovial fluids, mucus
  • Example : Joints, eyes (tears), digestive system
  • Protection : Reduction of friction, mechanical protection

36. Detoxification

  • Detail : Dilution and elimination of toxic substances
  • Example : Kidney function, sweating, exhalation (water vapor)
  • Mechanism : Solubilization of waste for excretion

37. Metabolic hydration reactions

  • Detail : Water production during metabolism
  • Example : Cellular respiration produces H₂O, oxidation of fats
  • Amount : ~300-400 mL/day of metabolic water in humans

38. The bioresonance frequency of water

  • Detail : sound vibrational equivalence of its molar mass via quantum physics
  • Example : harmonizes the water molecules H2O with each other
  • Mechanism : transmitted from molecule to molecule

🌍 ENVIRONMENTAL AND GEOLOGICAL PROPERTIES (8 properties)

39. Hydrological cycle

  • Detail : Permanent circulation between oceans, atmosphere, continents
  • Process : Evaporation → condensation → precipitation → runoff
  • Impact : Energy distribution, climate, erosion

40. Erosion capacity

  • Detail : Main agent of geological erosion
  • Example : Canyon formation, sediment transport
  • Mechanism : Mechanical action + chemical dissolution

41. Chemical weathering of rocks

  • Detail : Hydrolysis of minerals, formation of soils
  • Example : Feldspar → clay + dissolved ions
  • Consequence : Pedogenesis, release of nutrients

42. Climate regulation

  • Detail : Planetary-scale thermal moderator
  • Example : Oceans store heat, redistribute it through currents
  • Effect : Oceanic vs. Continental Climate

43. Cloud formation and precipitation

  • Detail : Evaporation → condensation on condensation nuclei
  • Process : Droplet formation, coalescence, precipitation
  • Importance : Distribution of fresh water, temperature regulation

44. Cryosphere (ice)

  • Detail : Ice reservoirs (glaciers, ice caps, permafrost)
  • Function : Sea level regulation, fresh water reservoir (69%)
  • Albedo : Reflection of sunlight, cooling

45. Aquatic habitat

  • Detail : Living environment for 71% of the Earth's surface
  • Diversity : Oceans, lakes, rivers, wetlands
  • Biodiversity : ~80% of species live in or depend on water

46. ​​Geochemical transport

  • Detail : Vector of migration of chemical elements
  • Example : Soil leaching, oceanic inputs, sedimentation
  • Cycles : Carbon, nitrogen, phosphorus depend on the water cycle


Water therefore appears to be a valuable element for conveying, transmitting and storing vital information or information related to living things.

All these properties demonstrate that water is not only a liquid but also a fluid of life, the very source of life.

In a drop of seawater, we were able to determine that there would be on average 10 million viruses and 1 million bacteria, which means that water is indeed a support for life that can contain millions of organisms in a very small space.

Clearly, we still have a lot to learn about water, its properties and its states to better understand the essence of life.

Water is not just H2O, as I've been highlighting with H3O2 and the work of Gerald Pollack. Water has complex properties that make it essential for the development of life and the sustainability of ecosystems.

By working to understand the dynamics of biocompatible waves, we also understand that water vibrates life in all its forms and states.

It is up to us to remain open to the fields of possibilities and to see water as a tool for co-creation and not as a drink to be consumed in so many liters per day.

The water here, the water there and the water above are interconnected and we have the consciousness that allows us to connect these waters to channel life information.
We will see this relationship between water and consciousness in a future article.

If you want to understand and experience the frequencies of water, we recommend our weighted tuning forks:

https://natura-sounds.com/products/set-diapasons-lestes-de-leau-ebook

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