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
| A. Melrose (Teacher) - Arithmetic - 1795 - 128 pages
...period, put its root for the firft figure of the root fought, and Subtract the number itfelf from faid **left-hand period; and to the remainder annex the next period for a dividend.** Find a divifor, by multiplying the fquare of the part of the root found by 300, divide the dividend... | |
| David Steel - 1805 - 390 pages
...the right hand of the given number, as in division. Subtract the square of this root from the first **period ;and to the remainder, annex the next period, for a dividend. Double the root already found,** and place it to the left hand of the dividend. Consider, what figure can be annexed to thiť divisor... | |
| George G. Carey - Arithmetic - 1818 - 574 pages
...the quotient, as in Division, and place iU square under, and subtract 'A from, the above-mentioned **period, and to the remainder annex the next period, for a dividend. Double the** part of the root already found, and place it on the left of the dividend for a trial divisor, find... | |
| Samuel Read Hall - Arithmetic - 1832 - 288 pages
...Subtract the square of the root already found from the left hand period, and to the remainder bring down **the next period for a dividend. Double the root already found for a** divisor ; seek how many times the divisor is contained in the dividend, (excepting the right hand figure)... | |
| Zadock Thompson - Arithmetic - 1832 - 188 pages
...Subtract the square of the root already found from the left hand period, and to the remainder bring down **the next period for a dividend. Double the root already found for a** divisor ; seek how many times the divisor is contained in the dividend (excepting the right hand figure),... | |
| Zadock Thompson - Arithmetic - 1832 - 186 pages
...Subtract the square of the root already found from the left hand period, and to the remainder bring down **the next period for a dividend. Double the root already found for a** divisor; seek how many times the divisor is contained in the dividend (excepting the right hand figure),... | |
| Silas Totten - Algebra - 1836 - 304 pages
...division. Subtract the square, thus found, from the said period, and to the remainder annex the figures of **the next period for a dividend. * Double the root, already found, for a** divisor, and find how many times it is contained in the dividend, exclusive of the right hand figure,... | |
| James Thomson (LL.D.) - Arithmetic - 1837 - 294 pages
...contained in it, if it be not a cute tUelf. (3.) Subtract the third power of this figure from the first **period, and to the remainder annex the next period for a dividend,** and for part of the divisor take 300 times the square of the part of the root already obtained. ^.)... | |
| Arithmetic - 1843 - 129 pages
...the greatest cube in the left-hand period, put its root in the quotient, subtract the cube from that **period, and to the remainder annex the next period for a dividend.** Multiply the square of the root by 300 for a divisor, and take it out of the dividend, the quotient... | |
| Charles Haynes Haswell - Engineering - 1844 - 264 pages
...the quotient; subtrnct the square number from the left-hand period, and 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 contained in the dividend, exclusive of the right-hand... | |
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