... and to the remainder bring down the next period for a dividend. 3. Place the double of the root already found, on the left hand of the dividend for a divisor. 4. Seek how often the divisor is contained... Easy Introduction to Mathematics - Page 252by Charles Butler - 1814Full view - About this book
| Catharine Esther Beecher - Arithmetic - 1833 - 296 pages
...greatest cube in the left hand period, and subtract it from that period. Place the root in the quotient, and to the remainder bring down the next period, for a dividend. 3. Square the root already found (understanding a cipher at the right) and multiply it by 3 for a divisor.... | |
| Daniel Adams - Arithmetic - 1833 - 268 pages
...and write its root as a quotient in division. Subtract the square number.from the left hand period, and to the remainder bring down the next period for a dividend. . III. Double the root already found for a divisor ; seek how many times the divisor is contained in... | |
| William Templeton (engineer.) - 1833 - 224 pages
...period ; then from the first period subtract the greatest cube it contains ; put the root as a quotient, and to the remainder bring down the next period for a dividend. Find a divisor by multiplying the square of the root by 300 ; see how often it is contained in the... | |
| Frederick Emerson - Arithmetic - 1834 - 300 pages
...period, and write its root in the quotient. Subtract the square of this root from the left hand period, and to the remainder bring- down the next period for a dividend. Thirdly — Double the root already found, for a divisor. Ascertain how many times the divisor is contained... | |
| Benjamin Snowden - 1835 - 108 pages
...its root for the first figure of the root sought. 2. — Subtract this cube from the first period, and to the remainder bring down the next period for a dividend. 3. — Find a divisor by multiplying the square of the root by 300. 4. — Divide the dividend by this... | |
| Silas Totten - Algebra - 1836 - 332 pages
...right, after the manner of a quotient in division. Subtract its cube from the aforementioned period, and to the remainder bring down the next period for a dividend. Multiply the square of the root already found by 300, for a divisor. Seek how often the divisor is... | |
| George Willson - Arithmetic - 1836 - 202 pages
...for the first figure of the root, and the square itself under the period, and subtract it therefrom, and to the remainder bring down the next period for a dividend. 3. Double the root already found, and annex a cipher to tho product, for a divisior. Seek how many... | |
| Mathematics - 1836 - 488 pages
...subtract from the highest period the greatest square contained in it, place the root in the quotient, and to the remainder bring down the next period for a dividend. 2. Double the root already found, (understanding a cypher at the right,) for a divisor, and divide... | |
| Charles Guilford Burnham - Arithmetic - 1837 - 266 pages
...quotient in division. Place the square of the root found, under said period, and subtract it therefrom, and to the remainder bring down the next period for a dividend. III. Double the root already found, for a divisor ; see how often the divisor is contained in the dividend,... | |
| Luther Ainsworth - Arithmetic - 1837 - 298 pages
...for the first figure of the root, and place the cube under the first period, subtract it therefrom, and to the remainder, bring down the next period for a dividend. Q. You have now found one figure of the root, what is your next process ? A. Multiply the square of... | |
| |