 | Frederick Robert Leyland Wilson - 1905 - 198 str.
...also found that a solid weighs less in water than in air, and further, that it weighs less in water by the weight of a volume of water equal to that of the solid. In other words, Weight of a solid in water = weight in air — weight of an equal volume of... | |
 | James William Holland - 1905 - 646 str.
...weight of the water, which, subtracted from the known weight of the water filling the bottle, will leave the weight of a volume of water equal to that of the powder. From these factors the specific gravity is calculated by the same rule-of-three as in previous... | |
 | Byron William Cheever - 1905 - 292 str.
...the substance. The loss in weight is equal to the weight of the water displaced by the substance, or the weight of a volume of water equal to that of the substance; dividing the weight in air by the loss of weight in water, as before, we obtain the specific... | |
 | Jamaica. Department of Agriculture - 1905 - 302 str.
...Cassava Balance. By weighing 50 Ibs. of tubers in air and again in water the loss of weight represents the weight of a volume of water equal to that of the tubers. The specific gravity of the tubers — at the temperature of observation — will then be the... | |
 | Joseph Albertus Culler - 1906 - 440 str.
...of water. and C, the difference in the weights is only the buoyancy of the water on the body. This is the weight of a volume of water equal to that of the body. We now have the weight of the body and the weight of an equal volume of water. The division of... | |
 | Alfred Broadhead Searle - 1906 - 418 str.
...from the tared glass. The tared glass and its contents are now weighed, the increase in weight being the weight of a volume of water equal to that of the test piece. The operation may be simplified somewhat by using a finely-graduated measuring glass instead... | |
 | Joseph Paxson Iddings - 1906 - 578 str.
...difference between the weight of the solid in air and its weight when immersed in water is equal to the weight of the displaced water, that is, the weight of a like volume of water. The ratio then between its weight in air and its W loss of weight in water is... | |
 | W. T. Clough - 1907 - 204 str.
...in air .'. Sp. er. of solId = 777 — or - : - .. - .. - . ' W— w wt. In aIr - wt. In water W—w is the weight of a volume of water equal to that of the solid. But we know the volume occupied by a given weight of water, and hence the volume of the solid... | |
 | James William Holland - 1908 - 698 str.
...water, which, subtracted from the known weight of the water filling the bottle 50 grams, will leave the weight of a volume of water equal to that of the powder (w'). From these factors the specific gravity is calculated by the same rule-of-three as in... | |
 | George Edmond Russell - 1909 - 242 str.
...Tr , ,, , K2 = dA • M'«2 ; and the net resulting vertical force on the prism is This latter term is the weight of a volume of water equal to that of the prism. By a consideration of every elementary prism in the body, we may conclude that the body as a... | |
| |
Hence, subtracting 510 from 585, the difference 75 represents the weight of the displaced water — that is, the weight of a volume of water equal to that of the iron. 
