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times the multiplicand is repeated, is the multiplier. The suin obtained by multiplication, is the product. The multiplier and multiplicand are also called fuctors of the product. If there are more than two factors, we first obtain the product of any two, then multiply this product by a third, and so on. Thus 4 times 3 times 5 times 2=120.
Any number that can be resolved into factors, is a composite number. A number that cannot be so resolved, is a prime number.
Thus 6, 12, 16, &c., are composite numbers ; 1, 2, 3, 5, 7, 11, &c., are prime numbers.
The sign X (multiplied by,) denotes that one number is to be multiplied by another, as, 4x3=12; 2x 6 x 3 =4* 9.
RULE FIRST. Write the multiplier under the multiplicand. When the multiplier contains but one figure, commence at the right hand of the multiplicand, and multiply each figure successively, carrying the tens as in addition.
When the multiplier contains more than one figure, mul. tiply by each figure separately, placing the first figure of each partial product under the figure by which you multiply. From the sum of all the partial products, point off as many decimal places as there are in both factors, (prefixing zeroes, if necessary, to make the required number of decimals,) and the result is the whole product.
Perform the multiplication anew, by RULE SECOND, or divide the product by either factor, and the quotient will be the other factor.
The product by zero is always zero.
To multiply any number by 10, 100, 1000, &c., remove the decimal point as many places to the right, as there are zeroes in the multiplier.
When there are zeroes at the right hand of either, or both factors, perform the multiplication without them, and annex them to the product.
If the multiplier can be resolved into factors, the product
may be obtained either by employing the whole multiplier, or each of its factors in succession.
RULE SECOND. Commence at the right, and number the figures of one factor, with the indices 1, 2, 3, 8c., and the figures of the other factor, with the indices 0, 1, 2, 3, fc. Indicate the product of any two of the figures, by the sum of their indices. Write the units' figure of product 1, for the right hand figure of the true product, and carry the tens to THE SUM of products 2. The units' figure of this sum is the second product figure, and the tens are carried to THE SUM of products 3. The units' figure of this product is the third figure sought, and the remaining figures are determined in a similar manner.
EXAMPLE FOR THE BOARD,
7 6 5 4 3 2 1 2 68.1 47 5
4 3 2 1 0 93.0 74
11 10 9 8 7 6 5 4 3 2 1
Multiply in one line, 268.1475 by 93.074. According to the rule, we say 4x5= 20. Set down 0 and carry 2. 4x7+ 5x7=63, and 2 to carry make 65. Set down 5 and carry 6. 4X4+7X7+5X 0+6=71. Set down 1 and carry 7.
2 49 57.5 6 041 50 4X1+7X4+7x0+5x3+7=54. 4x 8+7X1+4x0+7X3+5X9+5=110. 4X6+7x8+0x1+ 3X4+9x7+11=166. 4X2+7x6+0x8+3X1+9X4+16= 105. 7X2+0x6+3X8+9x1+10=57. 0X2+3x6+9x8+ 5=95. 3x2+9x6+9=69. 9x2+6=24. This rule may be readily demonstrated, by performing the multiplication in the usual manner, and observing what figures are added together, to obtain each figure of the entire product. The multiplication in one line will be found a useful exercise, and is particularly valuable for the facility it gives in addition, as well as for the exercise
of the memory.
1. 498632.06 X1.3=?
9. A merchant borrowed $9965.73, and paid .1845 of the amount for the use of the money. How much did he pay in the whole ?
10. Multiply 909871265000 by 470.0368,
Division is the process by which we find how many times one number or part of a number is contained in, or may be subtracted from, another.
The number to be divided is the dividend. The number to divide by, is the divisor. The number of times the dividend contains the divisor, is the quotient. The divisor and quotient may also be regarded as factors of the divi. dend. The number left, (if any,) after the operation, is the remainder.
The sign - (divided by) signifies that the former of two numbers is to be divided by the latter, as; 4-2=2; 16:4=8-- 2. Division may also be expressed by writing the divisor under the dividend ; as, ,
; which are read 4-2 or 4 halves; 164 or 16 fourths ; 7 ;-8 or 7 eighths; 11-12 or 11 twelfths, &c. Numbers written in this manner are called fractions, the number above the line, or the dividend, being the numerator, and the number below the line, or the divisor, the denominator. The remainder in any division may always be written as the numerator of a fraction, whose denominator will be the divisor.
16 7 11
Write the divisor at the left of the dividend, and if necessary, annex decimal zeroes to the dividend, until it has as тапу decimal places as the divisor.
From the left of the dividend, take as many figures as will contain the divisor one or more times, for å first partial dividend. Find how many times the partial dividend will contain the divisor, and write the result as the first quotient figure. Multiply the divisor by this figure, and subtract the product from the first partial dividend. To the remainder annex the next figure of the dividend for a second partial dividend, and divide as before. Thus continue until the division is complete, and point of as many decimals in
the quotient, as there are in the dividend more than in the divisor, prefixing zeroes, if necessary, to make the required number of decimals.
Add the remainder to the product of the divisor by the quotient, and you will obtain the dividend. To divide
any number by 10, 100, 1000, &c., remove the decimal point as many places to the right as there are zeroes in the divisor.
When there are zeroes at the right hand of the divisor, cut them off, and remove the decimal point of the dividend as many places to the left. After dividing the integers, remove ihe decimal point from the remainder, and you will have the true remainder.
When the divisor can be resolved into factors, we may either employ the whole divisor, or each of its factors in succession.
When the quotient will contain a number of figures, it is often convenient to multiply the divisor by each of the nine digits, and write the products on the slate, before commencing the division. It will then be easy to determine the value of each quotient figure, and the product to be subtracted from the partial dividend.
EXAMPLE FOR THE BOARD.
Divide 199760 by 371.
The divisor is between 300 and 400. 3 371)199760(538 hundreds are contained in 19 hundreds, 6 1855 times, and 4 hundreds are contained 4 times. 4 and 6 are therefore the limits of the true quo
1426 tient figure, which must be either 4, 5, or 6.
1113 Now the true quotient figure must be con
3130 tained in 1997, at least 371 times, as its pro
2968 duct by 371, is to be subtracted from 1997. Mentally dividing 1997 by 6, I find 6 is in 19,
162 3 times, 6 in 19, 3 times, which is smaller than the second figure of 371,-6 is therefore too large. Trying 5, I say, 5 in 19, 3 times, 5 in 49, 9 times, which is larger than the second figure of 371, and is therefore correct. The limits of the second quotient figure are 3 and 4. Dividing as before, 4 in 14, 3 times, 4 in 22, 5 times, which is too small. 3 is therefore the true quotient figure. The limits of the third quotient figure
are 7 and 10, or rather 7 and 9, as no figure can be greater than 9, and by mental division, 8 is found to be the true figure. Hence the following
FOR OBTAINING THE TRUE QUOTIENT FIGURE.
Employ the first figure of the divisor, and a number, one larger than the first divisor figure, as trial divisors, to determine the limits within which the true quotient figure must be found. Mentally divide the partial dividend by each of the possible quotient figures, until you find one that will give a quotient as large as, or larger than, the divisor. If there is but one such figure, it will be the one sought ; if there is more than one, the larger will be the true quotient figure.
1. Divide .0497 by 368000.
4. If the product of two factors is 81.45, and one of the factors is 18.1, what is the other ?
5. If the product of four factors is 2520, and three of its factors are 8, 5, and 7, what is the fourth ?
6. Divide 4x7* 9* 2 by 9x7* 2. By 9x 4. By 4x 2 x 9.
7. Divide .00984 by .02613x7. 8. What is the quotient of .087*.003 by 19000 x 70 ?
9. 27.3 is .16 of what number? .0095 is .84 of what number? 76.125 is 1.25 times what number? 841.21 is 1.34 of what number? 44 is .13 of what number?
LEAST COMMON MULTIPLE, AND THE GREATEST
One number is called a multiple of another, when the former can be divided by the latter without any remainder. A number that can be exactly divided by two or more other numbers, is a common multiple of those numbers. The divisors are called sub-multiples, or aliquot parts. Thus 24 is a common multiple of 2, 4, 6, 8, and 12,—and these latter numbers are aliquot parts of 24. Any number that contains all the factors of a number, will evidently contain