Water is colorless. However, water shows as white in certain instances.
Water is white in two conditions:
1. Waves, waterfalls, and whitewater.
The first is when water is turbulent. Liquid water is white at the interfaces of water and air when there is turbulence. Wave crests, breaking waves, waterfalls, the wake of ships and boats, river whitewater, water splashes, and water jets are all examples of turbulent water/air interfaces.
What happens at turbulent water/air interfaces?
Agitated water at the air interface encourages aeration of liquid water with air bubbles. When there is turbulent water, several things take place simultaneously:
- Water dissolves some of the air
- The churning water creates air bubbles and air pockets
- The turbulent water generates water droplets that are held in place with air bubbles.
In other words, churning water creates environments where air bubbles and water mix together. The gasses within air (Nitrogen, oxygen, carbon dioxide) do not absorb light; they reflect it.
A disorganized mass of air bubbles held in place by water will reflect light. Since none of the light is absorbed, the light reflected back is pure white.
Uneven air masses create white color
Keep in mind that it is the air bubbles that reflect the white light back. It is not water bubbles.
For example, a multitude of air bubbles produced by scuba divers will show up as white. When the production of the bubbles ceases, the white color dissipates.
Have you heard the expression "foaming at the mouth"? Colorless saliva turns white as breath is forced through the liquid in the mouth. The result is white foam bubbling or spluttering out.
For some animals, like dogs, frothing saliva could be a sign that they are anxious or overheated. A combination of panting, hyperventilation, and excess saliva will lead to air-bubble-laden frothy and white saliva.
2. Snow and ice cubes
The second condition when water appears white is when it is frozen in such a way as to hold trapped pockets or bubbles of air.
For example, snowflakes are frozen water. When snowflakes fall and collect on the ground, they glue to other flakes through frozen hydrogen bonds between the water molecules. In doing this, they entrap pockets of air.
Whereas a few snowflakes are colorless, a mass of snowflakes with entrapped air bubbles will appear white. A chaotic arrangement of air bubbles will bounce light all over the place (refract) light within the heaps of snowflakes.
Enough light, though, is reflected back to us from the surface of the snow as white light.
How about ice cubes?
It depends on how you freeze the cubes. Household ice cube trays often freeze water relatively quickly. This entraps the air bubbles in the center of the cube - the last place to freeze.
While the ice cubes shown above look as if they have clouds trapped in their center, it is possible to produce perfectly clear ice cubes at home.
As long as there is slow freezing from the bottom of the cube to the top, the air is forced up and out. The result will be a transparent ice cube through which you can read print!
Clouds are a specialized case of air entrapment
What about clouds? Or Fog? Or misted breath?
Clouds are a mixture of water droplets and air. What holds everything together?
Is it the liquid or the solid phase of water?
Clouds , fog, and cold breath mist are specialized cases of white color in water.
Conclusion and related posts
- To have whiteness in water, four things must take place:
- Environmental conditions trap gas bubbles (air or other gas) within water.
- The gas does not absorb light.
- The different sizes of entrapped gas bubbles cause chaotic refraction of light within the medium. This prevents light from going through.
- Enough of the light is reflected back to us through the topmost layer of gas bubbles. We see white light when all wavelengths of light are reflected back.
- Liquid water entraps gas bubbles through turbulence and/or hyper-aeration of the liquid.
- Frozen water, like snow and ice, hold the different air pockets and air bubbles in place through freezing of water molecules around the gas.Related posts:
- lpiepiora. Splash. Flickr photo-sharing. Taken Feb 23, 2006
- Horia Varlan. Splash made by a swimmer jumping into the sea. Flicker - photo sharing. Taken on Aug 5, 2009.
- .Andreas Bjärlestam Bubbles . Flickr photo-sharing. Taken July 25, 2008.
- Hijab, J. White snow on the deck. Winter 2018.
- Hijab, J. Ice cubes with entrapped air bubbles. Winter 2018.
- Hijab J. Clear ice cubes with print showing through. Winter 2018
- Hijab J. Fluffy white clouds. Fall 2018.