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The mass = its volume. This is true if the mass of water is measured in grams and the volume is measured in cc and the density of water is 1 gram/cc. Depending on temperature, 1 gram/cc is a good approximation. In general, the relationship between water (or anything else) and its volume is mass/volume = density.
volume in litres is equal to its weight in kgs 1000ltrs is equal to 1000kgs
The standard unit of volume in the metric system is liter or litre. By using decimal prefixes we can arrive at smaller or larger units of measure. It is no coincidence that there is a relationship between liter as volume, meter as distance and water:1 liter = 1 cubic decimeter = 1 kilogram of water at 4° C.
The density is the ratio between mass and volume.
Both Specific retention and specific yield relate to the ratio of the volume of water (in a permeable unit of rock and/or sediment) to the total volume of the rock and/or sediment, as it relates to gravity. Specific retention is the ratio of the volume of water that is RETAINED against the pull of gravity, ...where-as specific yield is the ratio of the volume of water that is EXPELLED (yielded) against the pull of gravity. Again, ...both as a ratio to the total volume of the rock and/or sediment.
There is no relationship between the mass of a sinking objectand the volume of water displaced.Their volumes are equal though .
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They are exactly the same amount
No relationship at all. But there is a definite and direct relationship between theamount of water than an object displaces and the object's volume.
Buoyant force is equal to the weight of the water displaced.
It is the inverse of the specific gravity of copper.
The water overflowed when Archimedes jumped in and he knew that there is a relationship between his weight and the volume of the water
The more particle is given the less water would go through it leaving the particle wet
The mass = its volume. This is true if the mass of water is measured in grams and the volume is measured in cc and the density of water is 1 gram/cc. Depending on temperature, 1 gram/cc is a good approximation. In general, the relationship between water (or anything else) and its volume is mass/volume = density.
volume in litres is equal to its weight in kgs 1000ltrs is equal to 1000kgs
A "gram" is a unit of weight, not a unit of volume or a container. You probably want to know how many grams of water are equivalent to one cup of water, in which case the answer is (where 1 cup contains 8 ounces): 8 * 28.25 (grams/ounce) = 226.8 grams --- Additional notes: A "cup" can be considered either a unit of volume or a unit of weight, where in the case of water, there is a direct fixed relationship between the volume and the weight. There is also a direct fixed relationship between a gram of weight and a milliliter volume of water, where 1 ml of water (at 4 degrees C) weighs 1 gram.
what is the relationship between body proteins and water? what is the relationship between body proteins and water?