 | Nicolas Pike - 1802 - 350 sider
...find a number which being multiplied into its fquare, (hall produce the given number. FIRST METHOD. RULE i. — 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... | |
 | Nicolas Pike - 1807 - 370 sider
...find a number which being multiplied into its fquare, (hall produce the given number. FIRST METHOD. RULE i.— 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. 3. Find the... | |
 | 1811 - 210 sider
...finding such a num,ber, as, being multiplied into its square will produce the number proposed. RULE. 1. Separate the given number into periods of three figures each, beginning at the units place. These periods will denote the number of .figures the required root will , contain. •... | |
 | 1817 - 214 sider
...finding of such a number, as, being multiplied into its square, will produce the number proposed. RULE 1. Separate the given number into periods of three figures each, beginning at the units place. 2. Find the greatest cube contained in the left hand period, and set its root on the right... | |
 | Beriah Stevens - 1822 - 436 sider
...there remains 6| for your greater part, and 10 — 6=3 for the lesser. 0¥ THE CTJEE R0OT. RULE. 1. Separate the given number into periods of three figures each, beginning at the right hand in integers, and pointing toward the left. But in decimals begin at the left, and point toward the... | |
 | Jacob Willetts - 1822 - 200 sider
...of such a nun> ber, as being multiplied into its square, will produce the number proposed. RULE. 1. Separate the given number into periods of three figures each, beginning at the units place. These periods will denote the number nf figures the required root will contain. 2. Find... | |
 | Stephen Pike - 1824 - 212 sider
...of such a number, as, being multiplied into its square, will produce the number proposed. RULE. 1. Separate the given number into periods of three figures each, beginning at the units place. 2. Find the greatest cube contained in the left hand period, and set its root on the right... | |
 | Catharine Esther Beecher - 1833 - 296 sider
...illustrations we see the reasons for the following rule. RULE FOR EXTRACTING THE CtBE ROOT. 1 . Point off the given number, into periods of three figures each, beginning at the right. 2. Find the greatest cube in the left hand period, and subtract it from that period. Place the root... | |
 | Frederick Emerson - 1834 - 300 sider
...analysis explains the following rule for the extraction of the cube root. RULE. First — Point off the given number into periods of three figures each, beginning at the unifs place, and .pointing to the left in integers, and to the right in decimals; making full periods... | |
 | Charles Davies - 1835 - 378 sider
...divisor to itself), the quotient will be the units of the root. Hence, for the extraction of the square root of numbers, we have the following RULE. I. Separate the given number into periods of two figures each beginning at the right hand, — the period on the left will often contain but one... | |
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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. 
