Sunday, November 13, 2011

How the backdrop of baptize affect rowing

In this video we explore how the special properties of water known as cohesion, adhesion, and surface tension affect the sport of rowing. Hydrogen bonds give water these special properties therefore if hydrogen bonds did not exist the sport of rowing would not be possible. First we discuss cohesion. Cohesion is the property of water that allows water molecules to stick together. This property creates an area for a rower to brace the blade of the oar against at the begin or "catch" of each stroke. As you can see in our pictures and video clips, the oar creates a mound of water as the rower takes each stroke, if the rower takes a truly effective stroke the water may even create a bend in the shaft of the oar. Next is adhesion. Adhesion is the property of water that allows the molecules to stick to other surfaces. This property works against rowers. If a rower does not retract their blade from the water cleanly the water will stick to the blade causing a disruption in the run of the boat. Lastly is surface tension. Surface tension allows the surface molecules of water to be attracted to each other creating a definite surface. This surface allows the boats to float on top and move smoothly and quickly along it. It is easy to see that rowing would be nonexistent without the special properties of water.

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Sunday, November 6, 2011

Absorbents and Adsorbents - What's The Difference?

!±8± Absorbents and Adsorbents - What's The Difference?

"Absorbent" and "adsorbent" are two words that look very much alike, and refer to actions that may superficially appear the same. But absorbents and adsorbents work in very different ways - differences that are important in selecting which kind to use for specific tasks.

An absorbent is a material that sucks in liquids and contains them internally. Absorbents typically have a large number of tiny pores. The makeup of the absorbent makes it so effective at soaking up water and other liquids. Loose fibers create a product that is more empty space than anything else, yet form chambers that can retain liquid. The holes between the fibers soak up the liquid and cause the fibrous material itself to swell, which also prevents the liquid from sloshing right back out. Instead, the liquid is trapped inside. If you were to remove all of the empty space, you would see that the actual matter inside an absorbent product would take up less than 1/3 of the absorbent's apparent volume.

Most so-called "universal" sorbent products are absorbents, which depend on capillarity to draw liquids of all kinds into their structure. Capillary action, or capillarity, is a phenomenon where liquid spontaneously rises in a narrow space such as a thin tube, or in porous materials. This wicking effect can cause liquids to flow against the force of gravity. It occurs because of inter-molecular attractive forces between the liquid and solid surrounding surfaces. If the diameter of the tube is sufficiently small, as in the pores of a sponge, then the combination of surface tension (which is caused by cohesion within the liquid) and forces of adhesion between the liquid and pore surfaces acts to lift the liquid.

Universal absorbents are often compounded of various cellulose products such as wood pulp, corncob or paper waste, but can be made of polypropylene or other non-organics.

An adsorbent, on the other hand, is a material that collects liquids on the surface and holds them there. Adsorbents work by selective molecular attraction - only certain molecules are attracted to the surface of the material. Typically this phenomenon is used to create "oil-only" absorbents that can be used to separate out oil from water so that only the oil is removed by the sorbent material, which in contrast repels the water molecules, leaving the water behind, stripped of polluting oils. This type of absorbent is important in cleaning up oil spills in aquatic environments such as dockyards, marinas, harbors, rivers, and lakes. In sufficient volume and in a form such as a boom that does not disperse, it can even be used in the open ocean. Additionally oil absorbents are staple supplies in machine shops, garages, and refineries where oil spills are a constant problem.

Specialized adsorbents are used for cleaning up toxic spills other than oil and in various refining processes where they are used to separate out specific components of a chemical stock flow.

Remembering this simple difference in action between absorbents and adsorbents can help keep them straight in your mind: absorbents suck liquids up; adsorbents attract specific liquids to their surfaces - like the difference between a drinking straw and a magnet.


Absorbents and Adsorbents - What's The Difference?

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