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Saturday, March 10, 2018

A drop or droplet is a small column of liquid, bounded completely or almost completely by free surfaces. A drop may form when liquid accumulates at the lower end of a tube or other surface boundary, producing a hanging drop called a pendant drop. Drops may also be formed by the condensation of a vapor or by atomization of a larger mass of liquid.

One drop equals 50 mm^3, then 1 cubic centimetre = 20 drops

Surface tension




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Liquid forms drops because the liquid exhibits surface tension.

A simple way to form a drop is to allow liquid to flow slowly from the lower end of a vertical tube of small diameter. The surface tension of the liquid causes the liquid to hang from the tube, forming a pendant. When the drop exceeds a certain size it is no longer stable and detaches itself. The falling liquid is also a drop held together by surface tension.

Pendant drop test


Water Droplets clipart fluid - Pencil and in color water droplets ...
Water Droplets clipart fluid - Pencil and in color water droplets .... Source : moziru.com

In the pendant drop test, a drop of liquid is suspended from the end of a tube by surface tension. The force due to surface tension is proportional to the length of the boundary between the liquid and the tube, with the proportionality constant usually denoted γ {\displaystyle \gamma } . Since the length of this boundary is the circumference of the tube, the force due to surface tension is given by

F γ = π d γ {\displaystyle \,F_{\gamma }=\pi d\gamma }

where d is the tube diameter.

The mass m of the drop hanging from the end of the tube can be found by equating the force due to gravity ( F g = m g {\displaystyle F_{g}=mg} ) with the component of the surface tension in the vertical direction ( F γ sin ⁡ α {\displaystyle F_{\gamma }\sin \alpha } ) giving the formula

m g = π d γ sin ⁡ α {\displaystyle \,mg=\pi d\gamma \sin \alpha }

where α is the angle of contact with the tube, and g is the acceleration due to gravity.

The limit of this formula, as α goes to 90°, gives the maximum weight of a pendant drop for a liquid with a given surface tension, γ {\displaystyle \gamma } .

m g = π d γ {\displaystyle \,mg=\pi d\gamma }

This relationship is the basis of a convenient method of measuring surface tension, commonly used in the petroleum industry. More sophisticated methods are available to take account of the developing shape of the pendant as the drop grows. These methods are used if the surface tension is unknown.

In medicine, droppers and IV infusion sets have a standardized diameter, in such a way that 1 millilitre is equivalent to 20 drops. And, for the cases when smaller amounts are necessary (such as paediatrics), microdroppers or paediatric infusion sets are used, in which 1 millilitre = 60 microdrops.

Drop adhesion to a solid


liquid water drop waterdrop water fluid drop drip drops seeping ...
liquid water drop waterdrop water fluid drop drip drops seeping .... Source : www.alamy.com

The drop adhesion to a solid can be divided to two categories: lateral adhesion and normal adhesion. Lateral adhesion resembles friction (though tribologically lateral adhesion is a more accurate term) and refers to the force required to slide a drop on the surface, namely the force to detach the drop from its position on the surface only to translate it to another position on the surface. Normal adhesion is the adhesion required to detach a drop from the surface in the normal direction, namely the force to cause the drop to fly off from the surface. The measurement of both adhesion forms can be done with the Centrifugal Adhesion Balance (CAB). The CAB uses a combination of centrifugal and gravitational forces to obtain any ratio of lateral and normal forces. For example, it can apply a normal force at zero lateral force for the drop to fly off away from the surface in the normal direction or it can induce a lateral force at zero normal force (simulating zero gravity).

Droplet


Precision approach may have spotted coldest liquid water droplets ...
Precision approach may have spotted coldest liquid water droplets .... Source : www.chemistryworld.com

The term droplet is a diminutive form of 'drop' - and as a guide is typically used for liquid particles of less than 500 µm diameter. In spray application, droplets are usually described by their perceived size (i.e., diameter) whereas the dose (or number of infective particles in the case of biopesticides) is a function of their volume. This increases by a cubic function relative to diameter; thus a 50 µm droplet represents a dose in 65 pl and a 500 µm drop represents a dose in 65 nanolitres.

Speed


liquid water drop waterdrop water fluid drop drip drops seeping ...
liquid water drop waterdrop water fluid drop drip drops seeping .... Source : www.alamy.com

A droplet with a diameter of 3 mm has a terminal velocity of approximately 8 m/s. Drops smaller than 1 mm in diameter will attain 95% of their terminal velocity within 2 m. But above this size the distance to get to terminal velocity increases sharply. An example is a drop with a diameter of 2 mm that may achieve this at 5.6 m.

Optics


Free Images : nature, droplet, liquid, water drop, leaf, glass ...
Free Images : nature, droplet, liquid, water drop, leaf, glass .... Source : pxhere.com

Due to the different refractive index of water and air, refraction and reflection occur on the surfaces of raindrops, leading to rainbow formation.

Sound


liquid water drop waterdrop water fluid drop drip drops seeping ...
liquid water drop waterdrop water fluid drop drip drops seeping .... Source : www.alamy.com

The major source of sound when a droplet hits a liquid surface is the resonance of excited bubbles trapped underwater. These oscillating bubbles are responsible for most liquid sounds, such as running water or splashes, as they actually consist of many drop-liquid collisions.

Shape


Water Drop Liquid Forms Drops Because Stock Photo 737571664 ...
Water Drop Liquid Forms Drops Because Stock Photo 737571664 .... Source : www.shutterstock.com

The classic shape associated with a drop (with a pointy end in its upper side) comes from the observation of a droplet clinging to a surface. The shape of a drop falling through a gas is actually more or less spherical for drops less than 2mm in diameter. Larger drops tend to be flatter on the bottom part due to the pressure of the gas they move through. As a result, as drops get larger, a concave depression forms which leads to the eventual breakup of the drop.

Size


liquid drop splash fluid water drip drops seeping sopping drips ...
liquid drop splash fluid water drip drops seeping sopping drips .... Source : www.alamy.com

Raindrop sizes typically range from 0.5 mm to 4 mm, with size distributions quickly decreasing past diameters larger than 2-2.5 mm.

Scientists traditionally thought that the variation in the size of raindrops was due to collisions on the way down to the ground. In 2009 French researchers succeeded in showing that the distribution of sizes is due to the drops' interaction with air, which deforms larger drops and causes them to fragment into smaller drops, effectively limiting the largest raindrops to about 6 mm diameter. However, drops up to 10 mm (equivalent in volume to a sphere of radius 4.5 mm) are theoretically stable and could be levitated in a wind tunnel. The largest recorded raindrop was 8.8 mm in diameter, located at the base of a cumulus congestus cloud in the vicinity of Kwajalein Atoll in July 1999. A raindrop of identical size was detected over northern Brazil in September 1995.

Gallery


Water Drop Vectors
Water Drop Vectors. Source : www.vectorfree.com

See also



  • Rain
  • Pitch drop

References



External links



  • Liquid Sculpture - pictures of drops
  • Liquid Art - Galleries of fine art droplet photography
  • Tvw Gallery of Drops - pictures of drops
  • (Greatly varying) calculation of water waste from dripping tap: [1], [2]
  • Liquid Photography - Sudhakar This link is broken


 
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