 | Nathan Daboll - Arithmetic - 1843 - 254 pages
...2, because 23, that is, 2X2 x2=8. RULE. I. Separate the given number into periods of three figures each, by putting a point over the unit figure, and every third rigure from the place of units, towards the left, and if there be decimals, point them from the unit's... | |
 | Nathan Daboll - Arithmetic - 1844 - 254 pages
...number. RULE. 1. Separate the given number into periods of three figures each, by puttiiw a pn,irit over the unit figure, and every third figure from the place of units to the left, and if therebe decimals, to the right. 2. Find the greatest cube in the left hand period, and alacc its root... | |
 | Benjamin Greenleaf - Arithmetic - 1844 - 208 pages
...Cube of 7 = 343 Hence the following RULE. 1. Separate the given number into periods of three figures each, by putting a point over the unit figure, and every third figure beyond the place of units. 2. Find by the table the greatest cube in the left hand period, and put... | |
 | Benjamin Greenleaf - Arithmetic - 1844 - 204 pages
...Proof. = 19683. Hence the following RULE. 1. Separate the given number into periods of three figures each, by putting a point over the unit figure, and every third figure beyond the place of units. 2. Find by the table the greatest cube in the left hand period, and put... | |
 | Davis Wasgatt Clark - 1844 - 394 pages
...each, beginning at the right hand : the left-hand period will often contain less than three figures. 2. Find the greatest cube in the left-hand period, and place its root on the right, in the place of a quotient in division. Subtract the cube of this figure of the root... | |
 | Davis Wasgatt Clark - Algebra - 1846 - 374 pages
...each, beginning at the right hand: the left-hand period will often contain less than three figures. 2. Find the greatest cube in the left-hand period, and place its root on the right, in the place of a quotient in division. Subtract the cube of this figure of the root... | |
 | Benjamin Greenleaf - Arithmetic - 1846 - 206 pages
...Proof. = 19683 Hence the following RULE. 1. Separate the given number into periods of three figures each, by putting a point over the unit figure, and every third figure beyond the place of units. 2. Find by the table the greatest cube in the left hand •period, and put... | |
 | Nathan Daboll, David Austin Daboll - Arithmetic - 1849 - 260 pages
...is 2, because 23, that is, 2X2X2=8. RULE. I. Separate the given number into periods of three figures each, by putting a point over the unit figure, and every third figure from the place of units, towards the left, and if there be decimals, point them from the unit's place towards the right in the... | |
 | D. M. Knapen - Measurement - 1849 - 300 pages
...the cube root : — 1. Divide the given number into periods of three figures each, by placing a dot over the unit figure and every third figure from the place of units ; then find the greatest cube in the left-hand period, and subtract it therefrom, placing the root... | |
 | Benjamin Greenleaf - Arithmetic - 1850 - 368 pages
...will produce the given number. RULE. — 1. Separate the given number into periods of three figures each, by putting a point over the unit figure, and every third figure beyond the place of units. 2. Find by the table the greatest cube in the left-hand period, and put... | |
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RULE. 1. Separate the given number into periods of three figures each, by putting a point over the unit figure, and every third figure from the place of units to the left, and if there be de- . cimals, to the right. 
