| Robert Potts - Algebra - 1879 - 672 pages
...this number will be the first figure of the root. 3. Subtract the cube of this number from the last period, and to the remainder annex the next period for a dividend. 4. Divide this number (omitting the last two figures) by three times the square of the first figure... | |
| Robert Potts - 1879 - 668 pages
...this number will be the first figure of the root. 3. Subtract the cube of this number from the last period, and to the remainder annex the next period for a dividend. 4. Divide this number (omitting the last two figures) by three times the square of the first figure... | |
| William Frothingham Bradbury - 1882 - 416 pages
...root at the right of the given number. 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,... | |
| Samuel Mecutchen - Arithmetic - 1880 - 270 pages
...left-hand period, for the first figure of the root. Subtract the cube of this figure from the left-hand period, and to the remainder annex the next period for a dividend. For a trial divisor, annex one cipher to the figure of the root just found, square the number thus... | |
| Samuel Mecutchen - Arithmetic - 1880 - 262 pages
...left-hand period, for the first figure of the root. Subtract the cube of this figure from the left-hand period, and to the remainder annex the next period for a dividend. For a trial divisor, annex one cipher to the figure of the root just found, square the number thus... | |
| Henry Bartlett Maglathlin, Benjamin Greenleaf - Arithmetic - 1831 - 386 pages
...greatest square in the left period, and place its root at the right ; subtract the square of this root from the first period, and to the remainder annex the next period for a dividend. Divide this dividend, omitting the last figure, by double the root already found, and annex the quotient... | |
| H. Bryant - 1881 - 574 pages
...first term of a first column, write its square as the first term of a second column, subtract its cube from the first period, and to the remainder annex the next period for a dividend, 3. Multiply the first term in each of the two left-hand columns by 3, and to the product in the second... | |
| Arithmetic - 1882 - 392 pages
...greatest square in the left-hand period, and write it for the first figure of the root. 2. Subtract this square from the first period; and to the remainder annex the next period for a dividend. III. To find the second figure of the root:— 1. Double the root already found, considered as tens,... | |
| Henry Bartlett Maglathlin - Arithmetic - 1882 - 398 pages
...greatest square in the left period, and place its root at the right ; subtract the square of this root from the first period, and to the remainder annex the next period for a dividend. Divide this dividend, omitting the last figure, by double the root already found, and annex the quotient... | |
| Sydney Lupton - Chemistry - 1882 - 374 pages
...left-hand period, or of the greatest square contained in it. (iii) Subtract the square of this figure from the first period; and to the remainder annex the next period for dividend; and for part of the divisor double the portion of the root already obtained. (iv) Try how... | |
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