| Thomas Grainger Hall - 1853 - 268 páginas
...the result both in the root and in the divisor. 3d. Multiply the divisor thus augmented by the new figure of the root, and subtract the product from the dividend, and to the remainder add the next period. 4th. For a new divisor, double the first two figures of the root, and find the... | |
| Mathew Wilson - 1854 - 210 páginas
...root and to the divisor. 6. Multiply the divisor thus increased by the figure of the root h:st found, subtract the product from the dividend, and to the remainder annex the next period for a new dividend. 6. To the last divisor add the last figure of the root for a new divisor, with which... | |
| William Scott - 1854 - 232 páginas
...root) to the first figure of the root, and also to the divisor. Multiply the new divisor, thus formed, by the second figure of the root, and subtract the product from the number composed of the first remainder and second period. To this remainder annex the third period... | |
| George Roberts Perkins - 1855 - 388 páginas
...the right, to the last term of the 2n COLUMN, for its next term. Multiply this term by the last found figure of the root, and subtract the product from the dividend, and to the remainder bring down the next period for a NEW DIVIDEND. Proceed as before until all the periods have been brought... | |
| Dana Pond Colburn - 1855 - 396 páginas
...Multiply the true divisor by the last root figure, placing the product under the dividend. Eighth. Subtract the product from the dividend, and to the remainder annex the next period for a new dividend. Ninth. Add the square of the last quotient figure to the last true divisor and the... | |
| Francis Walkingame - 1855 - 186 páginas
...at least, as the divisor. The first quotient figure being thus obtained, multiply the divisor by it, subtract the product from the dividend, and to the remainder annex the following figure of the dividend ; and proceed with the operation till all the figures are brought... | |
| John Radford Young - 1855 - 218 páginas
...will thus have the complete divisor. 4. Multiply the complete divisor by the last found root-term, subtract the product from the dividend, and to the remainder annex the two next terms of the polynomial ; you will thus have a second dividend. 5. Proceed now exactly as... | |
| John Fair Stoddard - 1856 - 312 páginas
...divisor, to form the TRUE DIVISOR. Multiply the true divisor by the figure of the root last obtained ; subtract the product from the dividend, and to the remainder annex the next period for a NEW DIVIDEND. To the last divisor, add the last figure of the root found , (400+50) x2 22 400x50... | |
| Dana Pond Colburn - 1856 - 392 páginas
...Multiply the true divisor by the last root figure, placing the product under the dividend. Eighth. Subtract the product from the dividend, and to the remainder annex the next period for a new dividend. Ninth. Add the square of the last quotient figure to the last true, divisor and the... | |
| James Stewart Eaton - 1857 - 376 páginas
...root and also at the right of the trial divisor, and so form the TRUE DIVISOR. 5. Multiply the true divisor by the second figure of the root and subtract the product from the dividend. 6. To the remainder annex the next period for a new dividend, and, having doubled the part of the root... | |
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