According to Archemedes' Principle, when a body (solid) ispartially or fully immersed in a liquid then the body loses a part of its weight. The weight lost by the body is equal to the volume of liquid displaced by the solid body.
In order to compare the density of water and coke, you have to immerse a solid object in water and note down the apparent decrease of weight of the object. Then we have to immerse the same object in coke and note down the apparent decrease in weight of the object. The ratio of these two readings is equal to the ratio of weights of equal volume of water and coke. Hence, it is equal to the ratio of densities of water and coke.
You can always compare the densities by the formula d=m/v, where m is the mass and v is the volume . However; a simpler technique is to put the objects in some water . The densities can be compared by how much water each of them will displace.
The density of metals is greater.
- density is a specific chracteristic of all materials; sometimes it is possible to identify a material knowing his density - designing of all technology systems requires knowledge of densities - designing of any packaging requires knowledge of densities
No, you can compare densities for objects of different sizes. Just divide mass by volume for each object.
Proton mass = approx. 1,850 x electron mass.If volumes are similar, then proton density = approx. 1,850 x electron density.
You can always compare the densities by the formula d=m/v, where m is the mass and v is the volume . However; a simpler technique is to put the objects in some water . The densities can be compared by how much water each of them will displace.
The density of metals is greater.
because swag
It is to compare the two different inputs
no
The principle of superposition is used to compare the ages of rocks, typically used by geologists.
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- density is a specific chracteristic of all materials; sometimes it is possible to identify a material knowing his density - designing of all technology systems requires knowledge of densities - designing of any packaging requires knowledge of densities
Planar
RobinsonRobinson
Although a lot more massive, the four outer gas giant planets are less dense than the inner rocky planets. The densities of the four inner planets are between 3.94 g/cm3 to 5.515 g/cm3, ehile the outer gas planet densities range from 0.7 g/cm3 to 1.76 g/cm3.
Is is related through Archimedes principle, which states that the buoyancy force on an object is equal to the weight of liquid displaced by the submerged object. The weight of a volume of water is equal to the volume x density of water x the gravitational constant.FB = V ρ g