| Charles Vyse - 1806 - 342 頁
...the first Period, and the Root thereof in the Quotient (as in Division) ; subtract that Square out of the said Period, and to the Remainder bring down the next Period for a Dividend. 3. Double the Quotient or Root, and place it for a Divisor, seek how often the Divisor... | |
| Daniel Adams - 1807 - 248 頁
...2. " FIND the greatest eube in the left hand period, and put its root in the quotient. 3. " SUBTRACT the cube thus found, from the said period, and to the remainder bring down the next period, and call this the dividend. l 4. « MULTIPLY the square of tlie quotient by 300, calling it the triple... | |
| Nicolas Pike - 1808 - 470 頁
...units. 2. Find the greatest cube in the left hand period, and put its root in the quotient. 3. Subtract the cube, thus found, from the said period, and to the remainder bring down the next period, and call this the dividend. 4. Multiply the square of the quotient by 300, calling it the triple square,... | |
| Caleb Alexander - 1813 - 152 頁
...unit. 2. Seek the nearest cube in the left hand period, and place its root in the quotient. 3. Subtract the cube, thus found, from the said period, and to the remainder bring down the next period, and calllhisthe dividend. 4. Multiply the square of the quotient by 300, and call it the triple tqwrc,... | |
| Roswell Chamberlain Smith - 1814 - 300 頁
...Find the greatest cube in the left-hand: period, and place its root in the quotient Subtract the cubo thus found from the said period, and to the remainder bring down the next period, and call this the dividend. Multiply the square of the quotient by 300, calling it the Find how many... | |
| Charles Vyse - 1815 - 340 頁
...first period, and the r6ot thereof in tne. qubtie'nt, as in Division' ; subtract that square out of the said period, and to the remainder bring down the next period for a dividend. 3. Double the quotient of t&6t, ariftf place it for a divisor, seek how often the divisor... | |
| Nathan Daboll - 1818 - 246 頁
...2. Find the greatest cube in the left hand period, and place its root in the quotient. 5. Subtract the cube thus found, from the. said period, and to...remainder bring down the next period, calling this tin; dividend. t 5. Seek how often the divisor may be had in the dividend, and place the result in... | |
| Daniel Adams - 1819 - 236 頁
...which we have obtained. 8000 feel=.llu solid contents rf the Cube. The Rule next directs, subtract fke cube thus found from the said period, . and to the remainder bring down the next period, fyc. Now this cube (8) is the solid contents of the figure we have in representation. Made evident... | |
| Robert Gibson - 1821 - 594 頁
...decimals. 2. Find the greatest cube in the left hand period, and put its root in the quotient. 3. Subtract the cube thus found, from the said period, and to the remainder bring down the next period, and call this the resolvend. 4. Multiply the square of the quotient by 300, calling it the triple square,... | |
| Nicolas Pike - 1822 - 536 頁
...greatest cube in the left hand period, and put its root in the quotient. 3. Subtract the cube, thug found, from the said period, and to the remainder bring down the next period, and call this the dividend. 4 Multiply the square of the quotient by 300, calling it the triple square,... | |
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