 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 - 304 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 - 346 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 - 210 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, placĀ» 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... | |
| |
