Wiki User
∙ 14y agothe hotter condtions make it condense much more
Wiki User
∙ 14y agoThere is no correlation between the size of raindrops and the season. Raindrop size is primarily determined by atmospheric conditions like temperature, humidity, and air currents, rather than the time of year.
raindrops
yes. Drizzling is lighter and smaller which causes yu to get mire wet but when it storms it is bigger.
The raindrops become bigger until they are too heavy to be held aloft by updrafts.
It isn't. For example, 1 is bigger than zero.It isn't. For example, 1 is bigger than zero.It isn't. For example, 1 is bigger than zero.It isn't. For example, 1 is bigger than zero.
Raindrops are formed when tiny droplets are enlarged, first by moisture from the surrounding air condensing on them and then by coalescing with other droplets during their descent. Raindrops vary in size from about 0.02 in. (0.5 mm) to as much as 0.33 in. (8 mm) in thunderstorms.Raindrops come in many different sizes and can get to as big as a quarter inch. They cannot get bigger than that and the reason is that the wind resistance begins breaking them up into smaller raindrops.Raindrops don't get much larger than a quarter inch.
An example is this: I had to fight a bigger person.
Evaporating water vapor rises to high altitudes, where the temperature is low enough for the vapor to condense back into liquid water. Generally the vapor condenses around small particles of dust. The technique of cloud 'seeding' introduces small particles into clouds to facilitate the formation of raindrops. Air currents raise the falling drops over and over. They get bigger and bigger, until they are too heavy to rise on the currents, and then they fall to earth.
Canadian provinces are bigger (example: British Columbia is a province that is bigger)
The bigger affect on wind speed is air pressure.
The temperature is higher - a bigger number.
The bigger the star's radius, the greater its surface area which emits the light. The bigger the temperature, the more luminous is the light the star is emitting.