|MLA Citation:||Bloomfield, Louis A. "Question 1205"|
How Everything Works 12 Dec 2017. 12 Dec 2017 <http://howeverythingworks.org/print1.php?QNum=1205>.
However, you'll notice that I said "freezing the water has virtually no effect on its weight." In reality, the water does lose a tiny fraction of its weight. That's because to freeze the water, you must remove some of the water's energy. As Einstein pointed out with his famous formula E=mc2, energy and mass are related to one another and since mass acquires weight when it's near the earth, so does energy. Because the thermal energy in liquid water has a tiny weight, when you remove some of this thermal energy from the water, the water loses some of its weight. But don't expect to measure this weight loss with a common scale—the weight change is on the order of one part in a trillion, a factor that's presently beyond the precision of even the most advanced research measuring devices.