Multiply the divisor, thus increased, by the last figure of the root; subtract the product from the dividend, and to the remainder bring down the next period for a new dividend. 5. Double the whole root already found for a new divisor, and continue the... Elementary Algebra - Page 255by George William Myers, George Edward Atwood - 1916 - 338 pagesFull view - About this book
| James Bates Thomson - Arithmetic - 1847 - 424 pages
...the right of the partial divisor ; multijily the divisor thus completed b;/ the figure last placed in **the root ; subtract the product from the dividend, and to the remainder** bring down the next period for a new dividend. IV. Double the root already found for a new partial... | |
| James Bates Thomson - Arithmetic - 1847 - 432 pages
...the right of the partial divisor; multiply the divisor thus completed by the figure last placed in **the root ; subtract the product from the dividend, and to the remainder** bring down the next period for a new dividend. IV. Double the root already found for a new partial... | |
| Joseph Ray - Algebra - 1848 - 250 pages
...figure in the root, and also on the right of the divisor. 4th. Multiply the divisor thus increased, **by the last figure of the root; subtract the product from the dividend, and to the remainder** bring down the next period for a new dividend. 5th. Double the whole root already found, for a new... | |
| James Bates Thomson - Arithmetic - 1848 - 422 pages
...the right of the partial divisor; multiply the divisor thus completed by the figure last placed in **the root ; subtract the product from the dividend, and to the remainder** bring doum the next period for a neut dividend. IV. Double the root already found for a new partial... | |
| George Roberts Perkins - Arithmetic - 1849 - 356 pages
...the result will be the TRUE DIVISOR. Multiply the true divisor by this second figure of the root, and **subtract the product from the dividend, and to the remainder annex the next period for a** SECOND DIVIDEND. IV. To the last TRUE DIVISOR add the last figure of the root for a new TRIAL DIVISOR,... | |
| George Roberts Perkins - Arithmetic - 1850 - 358 pages
...the result will be the TRUE DIVISOR. Multiply the true divisor by this second figure of the root, and **subtract the product from the dividend, and to the remainder annex the next period for a** SECOND DIVIDEND. IV. To the last TRUE DIVISOR add the last figure of the root for a new TRIAL DIVISOR,... | |
| John Radford Young - 1851 - 266 pages
...divisor will thus be completed. Multiply this complete divisor by the term last placed in the quotient, **subtract the product from the dividend, and to the remainder annex the** two next terms of the polynomial, and a second dividend will be obtained. Proceed with this as with... | |
| Joseph Ray - Algebra - 1848 - 248 pages
...figure in the root, and also on the right of the divisor. 4th. Multiply the divisor thus increased, **by the last figure of the root; subtract the product from the dividend, and to the remainder** bring down the next period for a new dividend. 5th. Double the whole root already found, for a new... | |
| Joseph Ray - Algebra - 1852 - 410 pages
...the figure in the root and also on the right of the divisor. 4th. Multiply the divisor thus increased **by the last figure of the root; subtract the product from the dividend, and to the remainder** bring down the next period for a new dividend. 5th. Double the whole root already found for a new divisor,... | |
| Charles Davies - 1852 - 346 pages
...the quotient in the root and also annex it to the divisor. IV. Multiply the divisor thus increased, **by the last figure of the root ; subtract the product from the dividend, and to the remainder** bring down the next period for a new dividend. V. Double the whole root thus found, for a new trial... | |
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