Wiki User
∙ 11y agoMass doesn't change in this universe. Mass and weight are kinda tricky subjects. Mass refers to the quantity of something. If you have 1 kg of mass, nothing will ever change that *unless* you change the quantity of that mass by adding or subtracting to it. The phase (whether it's liquid, solid, whatever) doesn't matter.
Coming back to your question about Orange Juice; If you've got a litre of OJ and you freeze it, you'll still have 1 litre of OJ. You haven't added more OJ to your original mass by freezing or unfreezing it. There's extenuating factors like air being trapped in the ice that alter its weight, but the OJ itself will still weigh 1 litre *until* you add or subtract more OJ to it.
Wiki User
∙ 11y agoYes it does have mass.
A weighed unit of liquid milk has exactly the same mass as an equal unit by weight of frozen milk. However frozen milk has a lower density than liquid milk.
Non-frozen water has no effect on the mass of a material because the mass remains constant regardless of its state as a liquid or solid.
Oranges vary greatly in size but in my experience about 1/3 the mass of an orange can be squeezed out by hand. Industrially they probably get closer to 85% as they often shred the entire orange into juice.
The answers to your questions, in order, are yes and no. A liquid liter is a liquid liter, regardless of what liquid it is a liter of. However, lead is (Obviously) denser than apple juice, so it has more mass.
Evaporation is faster at better heat and mass transfer. Lower viscosity would result to better heat and mass transfer. Of 3 liquid, soap results to lower viscosity (unless at very high concentration), salt resulted to higher viscosity and sugar in orange juice contribute to the most viscous of all. From above reason, the soapy water should evaporate faster than salt water and the slowest to dry should be orange juice.
Freezing does not change the mass of a liquid. Its density may change, however. Most solids are denser than their liquid phase. Frozen water, i.e. ice, is less dense, and so floats.
An Amorphous solid
In a micro gravity, if the mass of each are equal they would 'weigh' the same.
When something needs to solidify it is currently in a liquid form, such as water, and needs to solidify. One example could be when water is frozen it becomes ice, a frozen mass.
No, frozen water weighs the same as liquid water. When water freezes, it expands in volume but maintains the same mass, so the weight remains constant.
in the total of mass of all the ice cube 50