| Samuel Webber - 1801
...of 4, in the above series, is 2 ; and if this number be multiplied by 3, the product will be z;6 ; **which is the logarithm of 64, or the third power of...index of its root, the quotient will be equal to the** logarJthm of that root. Thus, the index or logarithm of 64 is 6 ; and if this number be divided by... | |
| Charles Hutton - 1811
...power. Thus, the index or logarithm of 4, in the above series, is 2 ; and if this number be multiplied **by 3, the product will be = 6 ; which is the logarithm of 64, or the third** pbwer of 4. Ai}d, if the logarithm of any number be divided by the index of its root, the quotient... | |
| Charles Hutton - 1812
...power. Thus, the index or logarithm of 4, in the above series, is 2 ; and if this number be multiplied **by 3, the product will be = 6 ; which is the logarithm...And, if the logarithm of any number be divided by** tlie index of its root, the quotknt will be equal to the logarithm of that root. Thus, the index or... | |
| Charles Hutton - 1816
...be multiplied by 3, the product will b* = 6 ; which is the logarithm of 64, or the third power Of4. **And, if the logarithm of any number be divided by...root, the quotient will be equal to the logarithm** ef that root. Thus, the index or logarithm of 64 is 6 ; and if this number be divided by 2, the quotient... | |
| 1818 - 251 sider
...multiplied by 3, the product will be 6, equal to the logarithm of 1000000, or the 3d power of 100. Again, **if the logarithm of any number be divided by the index of its root, the quotient will be** the logarithm of its root. Thus, the index, or logarithm of 1000000, is 6, and if this number be divided... | |
| Charles Hutton - 1822
...power. Thus, the index or logarithm of 4 in the above series, is t ; and if this number be multiplied **by 3, the product will be = 6 ; which is the logarithm of** 61, or the third power of 4. And, if the logarithm of any number be divided by the index of its root,... | |
| Thomas Kerigan - 1828 - 664 sider
...multiplied by 2, the product will be 8, which is the logarithm of 256, or the square of 16. Again, — **if the logarithm of any number be divided by the index...logarithm of that root ; thus, the index or logarithm of** 256 is 8 ; now, 8 divided by 2 gives 4 ; which is the logarithm of 16, or the square root of 256, according... | |
| Daniel Adams - 1828 - 264 sider
...cube roots, seldom occur, and, when they do, the work is most easily performed by logarithms ; for, **if the logarithm of any number be divided by the index of** the root, the quotient will be the logarithm of the root itself. ARITHMETICAL PROGRESSION. V 112. Any... | |
| Daniel Adams - 1828 - 264 sider
...cube roots, seldom occur, and, when they do, the work is most easily performed by logarithms ; for, **if the logarithm of any number be divided by the index of** the root, the quotient will be the logarithm of the root itself. ARITHMETICAL PROGRESSION'. *» IT... | |
| Daniel Adams - 1830 - 264 sider
...cube rcots, seldom occur, and, when they do, the work is most easily performed by logarithms ; for, **if the logarithm of any number be divided by the index of** the root, the quotient will be the logarithm of the root itself. ARITHMETICAL PROGRESSION1. V 112.... | |
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