yes, in some manner... rate of evaporation depends upon the surface area the liquid is covering. the more the surface area. the more the rate of evaporation. in this case, the more area the drop would cover on the body or on any surface, the more quickly the drop would evaporate!
Density is an intrinsic property, and as such it does not depend on the size of the object. A drop of water will have a density of 1g/ml whether it is a big drop, or a very small drop.
it depends upon her hand size
The answer will depend on the size of the bottle: there are lots of different sizes.
Charge and Size
it actually depend on the sample size.
The tiny fraction of an ounce that constitutes the volume of a droplet would depend on the size of the droplet. The size of the droplet would depend on the viscosity of the fluid, which is subject to change with increase or decrease in temperature.
direct chance of precipitation increases and water droplet increases
No.A droplet of water and an olympic swimming pool full of water have the same density.Water is water. Density is a property of the substance, not a property of any sample with any certain size or shape.
100 times its original size. your welcome!
water droplets are all different. They also very in size depending on how big they begin.
The answer will depend on the size of the cube!The answer will depend on the size of the cube!The answer will depend on the size of the cube!The answer will depend on the size of the cube!
A tiny amount of liquid water, of microscopic size -- though still containing a huge number of water molecules. Many droplets must merge to form just one normal-size drop of water.
cloud contain large amount of water vapour .The water vapour came to contact with dust particles (size 0.5mm) to form water droplet make it as its nuclie,this processes is called coalescence process . small water droplet combine to form bigger droplets . These droplets fall as rain drop.
This is because the larger the cloud droplet size, the heavier the clouds will become which causes them to rupture and produce precipitation.
The answer will depend on the size of the cup and, therefore, the quantity of water in it!
The answer will depend on the average depth of the water in the pool.The answer will depend on the average depth of the water in the pool.The answer will depend on the average depth of the water in the pool.The answer will depend on the average depth of the water in the pool.
It could depend on the size of glass you are talking about.