This depends on the volume of this drop.
drops of water can be of different size depending on the charge
It depends on the volume of the drop, temperature, pressure, and purity of the water. Are you looking for volume or mass?
use a measuring cup
Drop 10 coins of the same size and mass into a container filled with water, making sure that the water that overflows from the container is collected. Now measure the volume of the water overflow an multiply it with the density of water which is 1 kg/l. Now divide the total mass by 10 to get the mass of one coin.
The mass of 1 mL of water is 1 g.
The mass of 1 mL of water is 1 g.
The answer will depend on how much water - a drop, a cupful, a bucketful, a whole lakeful or WHAT!
1 mL of water has a mass of approximately 1 g. (The mass of 1 milliliter of water is approximately 1 gram.) 1 L of water has a mass of approximately 1 kg. (The mass of 1 liter of water is therefore approximately 1 kilogram.)
The mass of 1 L of water is 1 kg.
Heat is transferred based on the temperature of a mass (relative to the cooler mass it is transferring heat to) and the heat capacity of the mass. The total heat capacity is a product of the mass and the specific heat, i.e. Heat capacity = mass x specific heat. The hotter the mass, the more heat it can transfer. The greater the mass, the more heat it can transfer per degree of temperature drop. 100 kg of boiling water could be expected to be able to transfer 100 times the amount of heat of just 1 kg of boiling water for a drop of 1 °C.
No
1 foot