Yes, stone has mass which can be measured using a scale or balance. Mass is a measure of the amount of matter in an object, so all objects, including stones, have mass.
All materials have mass which should be measurable.
The mass of a stone in water is the mass of the stone outside water. The mass of an object is always its mass. (This assumes we are not discussing the theory of relativity.) On Earth, or the Moon or in water or not, mass is mass. What might be relevant, however, is the weight of a stone in water compared to the weight of a stone outside the water. Weight and mass are different. If you hold a stone in water and hold the same stone in air, you can feel a difference in the force you must apply to support the stone. In water, the stone feels a buoyant force equal the the weight of the water displaced. That is Archimedes principle. There is a difference in the apparent weight of a stone in water and a stone out of water equal to the eight of the water displaced.
A measurable physical property is a characteristic of a material that can be quantitatively determined through observation or experimentation. Some examples include mass, volume, density, temperature, and conductivity. These properties can be used to identify or describe a substance.
Some measurable characteristics of matter include mass, volume, density, temperature, and specific heat capacity. These properties can be quantified and used to describe and compare different substances.
Yes, stone is a type of matter. Matter refers to anything that takes up space and has mass, and stone fits this definition as it is a solid material composed of minerals.
Mass is the amount of material in an object. Mass has weight, volume, takes up space, and is measurable.
Four measurable properties of matter are mass,weight,volume,and pressure.
Yes, each sample has a measurable mass, which can be determined using a balance or scale. The mass is an important property that can provide information about the quantity of material present in the sample.
Water has measurable mass because it is composed of molecules, which are made up of atoms. These atoms have mass, and when they come together to form a water molecule, that mass adds up. The total mass of water is a measure of the sum of all the masses of its individual molecules.
yes because it can occupy space and has a measurable mass
No, a gamma ray is a massless particle with no rest mass, whereas an electron has a measurable mass.
All materials have mass which should be measurable.
Mass is a measurable property of matter, meaning it can be determined using instruments and calculations. It is a measure of the amount of material in an object and can be observed indirectly through its effects on other phenomena, such as its gravitational attraction.
The mass of a stone in water is the mass of the stone outside water. The mass of an object is always its mass. (This assumes we are not discussing the theory of relativity.) On Earth, or the Moon or in water or not, mass is mass. What might be relevant, however, is the weight of a stone in water compared to the weight of a stone outside the water. Weight and mass are different. If you hold a stone in water and hold the same stone in air, you can feel a difference in the force you must apply to support the stone. In water, the stone feels a buoyant force equal the the weight of the water displaced. That is Archimedes principle. There is a difference in the apparent weight of a stone in water and a stone out of water equal to the eight of the water displaced.
A measurable physical property is a characteristic of a material that can be quantitatively determined through observation or experimentation. Some examples include mass, volume, density, temperature, and conductivity. These properties can be used to identify or describe a substance.
Some measurable characteristics of matter include mass, volume, density, temperature, and specific heat capacity. These properties can be quantified and used to describe and compare different substances.
A stone has a solid mass and does occupy space.