Subtract the square of this figure from the left-hand period, and to the remainder annex the next period for a dividend. 3. Double the root already found, for a trial divisor; find how often it is contained in the dividend, exclusive of the righthand... Elementary Algebra - Page 255by George William Myers, George Edward Atwood - 1916 - 338 pagesFull view - About this book
| William Templeton (engineer.) - 1846 - 236 pages
...which write in the quotient or root, and the square thereof under the same period ; subtract therefrom, **and to the remainder annex the next period for a dividend. Double the** quotient for a divisor ; see how often the divisor is contained in the dividend, with this consideration,... | |
| James W. Kavanagh - 1846 - 302 pages
...period, enter it under the period, and its root in the quotient place, tahe this 3rd power from the **period, and to the remainder annex the next period for a dividend.** III. Divide this dividend, omitting the last two figures, by three times the 2nd power of the figure... | |
| Charles Haynes Haswell - Engineering - 1851 - 332 pages
...the quotient; subtract the square number from the left-hand period, und to the remainder bring down **the next period for a dividend. Double the root already found for a** divisor ; find how many times the divisor is icotUained in the dividend, exclusive of the right-hand... | |
| Mathew Wilson - 1854 - 206 pages
...that on the left, and place its root on the right. 3. Subtract this square number from the highest **period, and to the remainder annex the next period for a dividend.** 4. Double the figure of the root found for a divisor ; find how often it is contained in the dividend,... | |
| James Stewart Eaton - Arithmetic - 1857 - 376 pages
...trial the greatest cube in the left-hand period, place its root as in square root, subtract the cube **from the left-hand period and to the remainder annex the next period for a dividend.** 3. Square the root figure, annex two ciphers and multiply this result by 3 for a TRIAL DIVISOR ; divide... | |
| Benjamin Greenleaf - Arithmetic - 1857 - 336 pages
...figure of the root. Snlitract this square number from the first period, and to the remainder bring down **the next period for a dividend. Double the root already found for a** divisor, and find how often the divisor is contained in the dividend, omitting the right-hand figure,... | |
| Benjamin Greenleaf - Arithmetic - 1858 - 332 pages
...figure of the root. Subtract this square number from the first period, and to the remainder bring down **the next period for a dividend. Double the root already found for a** divisor, and find how often the divisor is contained in the dividend, omitting the right-hand figure,... | |
| Emerson Elbridge White - Arithmetic (Commercial), 1861 - 1861 - 348 pages
...right as the highest order of the root. 3. Subtract the square of the root figure from the left hand **period, and to the remainder annex the next period for a dividend.** 4. Double the part of the root already found for a trial divisor, and see how many times it is contained... | |
| James Stewart Eaton - 1862 - 320 pages
...the rig/it, in the place of a quotient in long division. 3. Subtract the square of this root figure **from the left-hand period, and to the remainder annex the next period for a dividend.** 4. Double the root already found for a TRIAL DIVISOR, and, omitting the right-hand figure of the dividend,... | |
| James Stewart Eaton - Arithmetic - 1864 - 322 pages
...trial the greatest cube in the left-hand period, plac» its root as in square root, subtract the cube **from the left-hand period and to the remainder annex the next period for a dividend.** 3. Square the root figure, annex two ciphers and multiply this result by 3 for a TRIAL DIVISOR ; divide... | |
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