| Samuel Mecutchen, George Mornton Sayre - 1877 - 200 Seiten
...x 10 x 5) plus the square of the units (52) ; and the required root is 10 + 5 = 15. RULE. Separate the given number into periods of two figures each, beginning at the right hand. Find the greatest number whose square is contained in the first left-hand period, for the... | |
| C. Frusher Howard - 1879 - 134 Seiten
...equals their sum multiplied by their difference. To find the square root of a number. RULE 1. Separate the given number into periods of two figures each, beginning at the unit's place. The number of figures In the root equals the number of periods. 2. Find the greatest... | |
| Samuel Mecutchen - 1880 - 262 Seiten
...required power ; the product of these factors will be the required power. EVOLUTION. SQUARE ROOT. SEPARATE the given number into periods of two figures each, beginning at the right hand. Find the greatest number whose square is contained in the first left-hand period, for the... | |
| Samuel Mecutchen - 1880 - 292 Seiten
...required power ; the product of these factors will be the required power. EVOLUTION. SQUARE ROOT. SEPARATE the given number into periods of two figures each, beginning at the right hand. Find the greatest number whose square is contained in the first left-hand period, for the... | |
| James Gray - 1883 - 154 Seiten
...9'879518/j. 6. Divide 4-736 by 82-73. Ans. 05724855 #BesV EXTRACTION OF THE SQUARE ROOT. RCLE 1. Divide the given number into periods of two figures each, beginning at the right hand, and pointing toward the left in integers, and toward the right in decimals. Every period... | |
| C. Frusher Howard - 1884 - 144 Seiten
...the square root of a number. Use, to find the length of one side of a given square. RULE 1. Separate the given number into periods of two figures each, beginning at the unit's place. The number of figures In the root equals the number of periods. 2. Find the greatest... | |
| John Bernard Clarke - 1889 - 566 Seiten
...square of the units, on the principle indicated in (218). We thus have the following RULE.—Separate the given number into periods of two figures each, beginning at the right; the extreme left-hand period may contain but one figure. Divide this result (not considering... | |
| John Groesbeck - 1891 - 426 Seiten
...and which has an exact square root. 432. To find the square root of a number. Rule. — 1. Separate the given number into periods of two figures each, beginning at the place of units. 2. Find the greatest square in the left-hand period, and place its root for the first figure of the... | |
| Thomas J. Foster - 1891 - 444 Seiten
...logarithms for a shorter method.) EVOLUTION. To flnd the square root of a number. — RULE. — I. Separate the given number into periods of two figures each, beginning at the units place. II. Find the greatest number whose square is contained in the period on the left ; this... | |
| Bothwell Graham - 1895 - 240 Seiten
...1000000. 92 = 81. 992 = 8801. 2.52 = 6.25. Hence, to find the number of figures in the root, separate the number into periods of two figures each, beginning at the place of the decimal point. The left-hand period will contain the square of the first figure of the root. 340.... | |
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