No. The weight of a given volume of a solid is dependent on its DENSITY (weight per volume). The value provided may be its absolute density (at a given temperature) or its specific gravity(density compared to another substance, usually water).
Do all rocks weigh the same if they have a different mass but the same weight? Let's look at the question without one bit of it..... "Do all rocks weigh the same if they have ......... .... ... the same weight?" If things are the same weight, then they weigh the same.
Take three identical bottles. Fill one with air, one with water, and one with stones. The volumes of all three bottles are the same, but their weights are different, because they contain different masses. Different substances can easily have different masses in the same volume. That's why the concept of "density" is so useful.
That depends what the fluid is. Not all fluids weigh same.
no,all zones have the same volume
That completely depends on what's in those 350 cc. -- If you're on Earth, then, for example . . . - If they're full of sea-level air, then they weigh about 0.0044 newton (0.016 ounce). - If they're full of water, then they weigh about 3.43 newtons (12.35 ounces). - If they're full of gold, then they weigh about 65.6 newtons (14.74 pounds). -- If you're anywhere else but Earth, then their weights are different, even with the same substances in them. -- If the 350 cc are empty, then they have no weight at all, regardless of where you are. -- If you're in free-fall in space, then they have no weight at all, regardless of what's in them.
All substances have volume, but gravity is not a substance; gravity is a force and has no volume.
not all substances contract in the same
If you consider an amount of watermolecules, they weigh at all times the same. If you consider a volume of watermolecules, as temp increases, molecules expand, and there will be less molecules for the same volume, thus reducing weight per volume.
No. Not at all. Volume has no force. Put 1 cubic foot of air inside a sealed jar, and weigh the air. Now let the same air into a 10-cubic-foot jar; seal the jar, and weigh the air again. The air has 10 times the original volume, but it still has exactly the same weight.
ALL substances in a gaseous state do not have a definite volume or shape.ALL substances in a liquid state have a definite volume but no definite shape.ALL substances in a solid state have a definite volume and a definite shape.Oxygen usually presents as a gas.
Do all rocks weigh the same if they have a different mass but the same weight? Let's look at the question without one bit of it..... "Do all rocks weigh the same if they have ......... .... ... the same weight?" If things are the same weight, then they weigh the same.
All substances are made up of atoms which have nucleus inside it,since nucleus is same for all whether it be anything,hence all the substances have same force i.e nuclear force.
Take three identical bottles. Fill one with air, one with water, and one with stones. The volumes of all three bottles are the same, but their weights are different, because they contain different masses. Different substances can easily have different masses in the same volume. That's why the concept of "density" is so useful.
First of all, there's no such thing as the mass of a substance, or the volume of a substance. You can have 0.01 kilogram of water or 10,000 kilograms of water. It only depends on how much you decide to scoop out of the bucket. The water itself has no characteristic mass. Similarly, you can have 1 milliliter or 1 cubic kilometer of potato salad. It only depends on how much you buy at the deli. The potato salad itself has no characteristic volume. If you measure out the same mass of two different substances, then the sample of the substance with the greater density will have less volume. If you measure out the same volume of two different substances, then the sample of the substance with the greater density will have more mass.
NO
no
As the water is heated the amount of space that the water (now a vapor) increases in size (spreads out) but the mass (weight) is the same. If you could weigh all the vapor, it would weigh the same.