Multiply the last remainder by the preceding divisor, or last but one, and to the product add the preceding remainder ; multiply this sum by the next preceding divisor, and to the product add the next preceding remainder ; and so on, till you have gone... Elements of arithmetic for the use of schools - Page 47by William Scott - 1854 - 215 pagesFull view - About this book
| Mathematics - 1801 - 446 pages
...commonly made use of is this : RULE. Multiply the last remainder by the preceding divisor, or last but one, and to the product add the preceding remainder...and to the product add the next preceding remainder ; nnd so on, till you have, gone through all the divisors and remainders to the first. EXAMPLE. 9)64865... | |
| Nicolas Pike - Arithmetic - 1809 - 312 pages
...divifor is a compoQte number, is, RULE II. Multiply the laft remainder by the preceding, divifor, or lad but one, and to the product add the preceding remainder ; multiply this fum by the next preceding divifor, and to the proclu>£t add the next preceding remainder ; and fo... | |
| Charles Hutton - Mathematics - 1811 - 406 pages
...performed all at once, proceed as follows ; Multiply the last remainder by the preceding divisor, or last but one, and to the product add the preceding remainder...and to the product add the next preceding remainder ; and so on, till you have gone backward through all the divisors and remainders to the first. As in... | |
| Samuel Webber - Arithmetic - 1812 - 260 pages
...is most commonly used, is this. RULE. Multiply the last remainder by the preceding divisor, or last but one, and to the product add the preceding remainder...and to the product add the next preceding remainder ; and so on till you have used all the divisors and remainders. EXAMPLE. 9)64865 divided by 144 1 the... | |
| Charles Hutton - Mathematics - 1812 - 620 pages
...performed all at once, proceed as follows : Multiply the last remainder by the preceding divisor, or last but one, and to the product add the preceding remainder...and to the product add the next preceding remainder ; and so on, till you have gone backward through all the divisors and remainders to the first. As in... | |
| Charles Hutton - Mathematics - 1822 - 616 pages
...performed all at once, proceed as follows : Multiply the last remainder by the preceding divisor, or last but one, and to the product add the preceding remainder...next preceding divisor, and to the product add the neit preceding remainder ; and so on, till you have gone backward through all the divisors and remainders... | |
| William Kinne - 1829 - 246 pages
...and neither of them the true one, but the true remainder may be found by the following rule. RULE.— Multiply the last remainder by the last divisor but...multiply this sum by the next preceding divisor, and to this product add the next preceding remainder, and so on until all the remainders and divisors are... | |
| William Kinne - Accounting - 1831 - 248 pages
...neither of them the true one but the true remainder may be found by the following rule. RULE.—Multiply the last remainder by the last divisor but one, and...multiply this sum by the next preceding divisor, and to this product add the next preceding remainder, and so on until all the remainders and divisors are... | |
| Nicolas Pike - Arithmetic - 1832 - 540 pages
...divisor is a composite number, is RULE II. Multiply the lost remainder by the preceding divisor, or last but one, and to the product add the preceding remainder...and to the product add the next preceding remainder ; and so on, till you have gone through all the divisors and remainders, to the tirst. EXAMPLE. 6)35397... | |
| George Alfred - Arithmetic - 1834 - 336 pages
...preceding divisor, or the last but one ; and to the product add the preceding remainder ; multiply the sum by the next preceding divisor, and to the product add the next preceding remainder, and so on, till you have gone through all the divisors and remainders, to the first ; the result will... | |
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