If there was a gallon of water before it was frozen then it weighs the same.
Fresh water has a density of 1Kg/liter
Water ice has a density of 0.9167Kg/l
A gallon is a volume measurement, so a gallon of ice weighs less than a gallon of water.
The short answer is about 380 grammes or 13.5 Oz.
By frozen water, I guess that you meant water at 0 degrees Celsius, compared with water at the room temperature of 25 degrees Celsius. The densities are 999.8395 kg/m^3 and 997.0479 kg/m^3, at 0 and 25 degrees C, respectively. In the US, one gallon is equivalent to 231 in^3, or 3.79 L, or 3.79E-3 m^3. The weight difference = (999.8395-997.0479)*3.79E-3 kg = 0.0106 kg = 0.023 lb.
The average weight difference between men and women of the same height and age is 10 pounds.
yes because the size of the molecules change therefore so does the weightCounterpoint:No, a gallon of water would weigh the same if it were frozen into a "gallon" of ice. The molecules do not change size, they simply do not move as fast and stick together when they are frozen. Therefore nothing is added or subtracted at a molecular level, and the weight of a liquid is the same whether it is frozen or solid.Water has a density of 1.00 gram/cubic centimeter.Ice, on the other hand, has a density of 0.931 gram/cubic centimeter.(As the volume is equal, and mass = density x volume)[Water will be heavier.]
the actual weight of the object is static weight and along with the shipping package is dynamic weight
abe chor sale
no difference
nope
The mass of water is with 20-30 % higher.
Freezing or thawing does not change weight.
Weigh an empty container; pour a gallon of water into it. Weigh it again. Calculate the difference. That is the weight of the gallon of water.
salt water has more mass because of the added salt so salt is heavier :)
1 gallon of beer gives 10.66 12-oz. glasses of beer 1 gallon of water gives 16 8-oz. cups of water, of course. :)
By frozen water, I guess that you meant water at 0 degrees Celsius, compared with water at the room temperature of 25 degrees Celsius. The densities are 999.8395 kg/m^3 and 997.0479 kg/m^3, at 0 and 25 degrees C, respectively. In the US, one gallon is equivalent to 231 in^3, or 3.79 L, or 3.79E-3 m^3. The weight difference = (999.8395-997.0479)*3.79E-3 kg = 0.0106 kg = 0.023 lb.
Three tons is the difference between them
about a 75 # weight difference between both sides.
The temperature of any object does not change its weight. This is discussed in the ccientific principle called the "Law of Conservation of Mass". The puck will be harder and slightly smaller when frozen.
what is the difference between a weight measure and a volume measure