No, a drop of water isn't even the same as another drop of water. They come in different sizes and aren't adequate for precision uses. For an amazing drop search "Pitch drop experiment".
It works out as 15 miles per hour. Pace aside, four minutes is an extremely fast time for a mile. Anybody who runs that fast should drop whatever they are doing regerdless of priority and start their Olympic training. A 4 minute mile was prviously thought humanly impossible.
you drop a remainder by answering in a full question
The size of a drop depends on the surface tension of the liquid (and gravity). A standard medicinal drop 50 microlitres.
The closest answer I can find is the record for fastest recorded temperature drop. On 1/10/1911 in Rapid City, South Dakota it dropped 47 F° in 15 minutes.
To determine the time it takes for the concentration of a reactant to decrease to 6.25% of its original concentration, you can use the concept of half-life if you know the rate constant. If you have a specific reaction in mind, please provide more information so that a precise calculation can be made.
The time it takes for a drop of food coloring to color a glass of still water with sugar in it depends on factors such as the amount of water, concentration of food coloring, and mixing. In general, it can take a few minutes to fully disperse and color the water evenly.
This depends on: - the volume of the drop - the concentration of sodium chloride solution
The cube is high in concentration and when it dissolves it be comes low in concentration. It diffuses: molecules move from an area of high concentration to an area of low concentration. Hope this helps, It was on my homework too.
5 seconds
This process is called diffusion. Diffusion is the movement of particles from an area of high concentration to an area of low concentration, leading to a uniform distribution of the particles.
To calculate the number of molecules of CHCl3 in a 0.050 mL drop of water, you first need to convert the concentration of CHCl3 from ppb to molecules/mL. Then, use Avogadro's number to convert molecules/mL to molecules in the drop. Finally, calculate the number of molecules in the drop by multiplying the concentration in molecules/mL by the volume of the drop in mL.
run faster
3 minutes
it can drop off after a few minutes, and it can drop off after a few days, sooner or later it will drop off by it self, and you MUSTN'T treat the wound after it
blood level gets low
Wasp spray. They drop like flies in a few minutes.