 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
 | Walter Burton Ford, Charles Ammerman - Algebra - 1919 - 370 pages
...divisor by the figure of the root last found (7), giving the 329 appearing in the process. Subtract this from the dividend, and to the remainder annex the next period for the next dividend. This gives the 1629 of the process. Proceed as before, and continue until a final... | |
 | Joseph Ray - Algebra - 1848 - 252 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 - 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 - Arithmetic - 1857 - 340 pages
...quotient in the root and also on the right of the divisor. 4. Multiply the divisor thus increased, by the last figure of the root; subtract the product from the dividend ; to the remainder annex the next period for a new dividend. 5. Double the whole root found for a NETV... | |
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