 | Charles Hutton - Mathematics - 1822 - 680 pages
...sink together. Weigh the denser body and the compound mass, separately, both in water and out of it ; then find how much each loses in water, by subtracting...less of these remainders from the greater. Then say, by proportion, As the last remainder, Is to the weight of the light body in air, So is the specific... | |
 | Colin Mackenzie - Chemistry - 1822 - 774 pages
...in the fluid. Weigh the heavier body and the compound mass separately, both in water and out of it ; then find how much each loses in water, by subtracting...the less of these remainders from the greater. Then, As this hist remainder Is to the weight of the light body in air, So is the specific gravity of the... | |
 | James Mitchell - Mathematics - 1823 - 666 pages
...the compound body separately, both out of the water and in it; and find how much each loses in the water by subtracting its weight in water from its...the less of these remainders from the greater. Then use this proportion : As the last remainder Is to the weight of the light body in air, So is the specific... | |
 | John Bonnycastle - Geometry - 1829 - 256 pages
...together. Weigh the heavier body and the compound mass separately both in water and out of it, and find how much each loses in water, by subtracting its weight in water from its weight in air. Then as the difference in these remainders is to the weight of the light body in air, So is the specific... | |
 | Charles Hutton - Mathematics - 1831 - 656 pages
...sink together. Weigh the denser hody and the compound mass, separately, both in water, and out of it ; then find how much each loses in water, by subtracting...its weight in air ; and subtract the less of these remain* ders from the greater. Then say, by proportion, As the last remainder, Is to the weight of... | |
 | James Hann, Isaac Dodds - Mechanics - 1833 - 234 pages
...the compound body separately, both out of the water and in it, and find how much each loses in the water by subtracting its weight in water from its...the less of these remainders from the greater. Then use the following proportion : As the last remainder, Is to the weight of the light body in air ; So... | |
 | Samuel YOUNG (of Manchester.) - 1833 - 272 pages
...water, »« that the two may sink together. Weigh each body separately, both in and out of water ; find how much each loses in water, by subtracting its weight in water from its weight in air, and take the difference of the Remainders. Then, as difference LJ weight of light body in air. Specific... | |
 | Tobias Ostrander - Measurement - 1833 - 172 pages
...togegether. Weigh the heavier body and the compound mass separately, both in water and out of it, and find how much each loses in water, by subtracting its weight in water from its weight in air. Then as the difference of these remainders is to the weight of the light body in air, so is the specific... | |
 | Tobias Ostrander - Measurement - 1834 - 182 pages
...togegether. Weigh the heavier body and. the compound mass separately, both in water and out of it, and find how much each loses in water, by subtracting its weight in water from its weight in air. Then as the difference of these remainders is to the weight of the light body in air, so is the specific... | |
 | Frederick Augustus Griffiths - 1839 - 348 pages
...sink together. Weigh the denser body and the compound mass separately, both in water and out of it; then find how much each loses in water, by subtracting...subtract the less of these remainders from the greater. Then,—As the last remainder, 3. Far a fluid of any sort. Take a piece of a body of known specific... | |
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... so that the mass compounded of the two may sink together. Weigh the denser body and the compound mass, separately, both in water, and out of it ; then find how much each loses in water, by subtracting its weight in water from its weight in air ; and... 
