 | Charles Guilford Burnham - 1850 - 350 pages
...those sides. From the foregoing example and illustration we derive the following RULE. I. Distinguish the given number into periods of three figures each, beginning at the right hand. II. Find the greatest cube in the left-hand period, and place its root as a quotient in division. III.... | |
 | Benjamin Naylor - 1850 - 334 pages
...the nature and application of the following rule. for extracting the cube root. RULE. 1st. Point ofF the given number into periods of three figures each, beginning at the units place. 2d. Find the root of the greatest cube, that does not exceed the left-hand period, which... | |
 | Charles Davies - 1852 - 344 pages
...rectangles FE and CE, together with the square ED. 292. Hence, for the extraction of the square root, we have the following RULE. — I. Separate the given number into periods of two figures each, by setting a dot over the place of units, a second over the place of hundreds, and... | |
 | Charles Davies, William Guy Peck - Mathematics - 1855 - 628 pages
...cube roots can only be found by approximation. To find the cube root of a whole number: Separate the number into periods of three figures each, beginning...left hand period will often contain less than three figures. Find the greatest perfect cube in the left hand period and place its cube root on the right,... | |
 | Elias Loomis - Algebra - 1855 - 356 pages
...(284.) Hence, for the extraction of the cube root of numbers, we derive the following RULE. » . 1 . Separate the given number into periods of three figures each, beginning at the right hand. 2. Find the greatest cube contained in the left-hand period ; its ronl is the first figure of the required... | |
 | Charles Davies, William Guy Peck - Electronic book - 1855 - 592 pages
...incommensurable. To extract the square root of a whole number : I. Separate the number into periods of two figures each, beginning at the right | hand : the left hand period will often contain but one figure. II. Find the greatest perfect square in the first period on the left, and place its... | |
 | Charles Davies - Arithmetic - 1856 - 450 pages
...rectangles FE and CE, together with the square ED. 305. Hence, for the extraction of the square root, we have the following RULE. — I. Separate the given number into periods of two figures each, by setting a dot over the place of units, a second over the place of hundreds, and... | |
 | Charles Guilford Burnham - 1857 - 342 pages
...those sides. From the foregoing example and illustration we derive the folio wins RULE. I. Distinguish the given number into periods of three figures each, beginning at the right hand. II. Find the greatest cube in the left-hand period, and place its root as a quotient in division. III.... | |
 | Charles Davies, William Guy Peck - Mathematics - 1857 - 608 pages
...cube roots can only be found by approximation. To find the cube root of a whole number . Separate the number into periods of three figures each, beginning at the right hand ; to the linear unit. The volume of any cube j the left hand period will often contain less is numerically... | |
 | Charles Davies, William Guy Peck - Mathematics - 1859 - 622 pages
...equal to the linear unit. The volume of any cubc To find the cube root of a whole number. Separate the number into periods of three figures each, beginning...right hand; the left hand period will often contain les« is numerically equal to the product obtained than three ligures. Find the greatest perfect by... | |
| |
RULE. I. Separate the given number into periods of three figures each, beginning at the right hand ; the left hand period will often contain less than three places of figures. 
