A Description of the Visible Numerator: With Instructions for Its Use ... Designed to Impart to Learners a Clear and an Adequate Knowledge of the Principles of Arithmetic, and to Accompany the Apparatus |
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Page 15
... multiplicand by the 2 tens in the multi- plier . Now if we multiply the 2 units in the multiplicand by the 2 tens in the multiplier , the result will be 4 tens ; which , in order to place them properly for the purpose of adding the ...
... multiplicand by the 2 tens in the multi- plier . Now if we multiply the 2 units in the multiplicand by the 2 tens in the multiplier , the result will be 4 tens ; which , in order to place them properly for the purpose of adding the ...
Page 16
... multiplicand by the 2 tens to the product of the multiplicand by the 2 units , after both multiplications have been performed , it will manifestly be correct to put the solids representing this first product by the 2 tens in the ...
... multiplicand by the 2 tens to the product of the multiplicand by the 2 units , after both multiplications have been performed , it will manifestly be correct to put the solids representing this first product by the 2 tens in the ...
Page 17
... multiplicand , or of both together , may be explained by multiply- ing 232 by 220 , then 2320 by 22 , lastly 320 by 220. It will be perceived in the first case , that the 232 is in fact multiplied by 22 tens ; in the second , that 232 ...
... multiplicand , or of both together , may be explained by multiply- ing 232 by 220 , then 2320 by 22 , lastly 320 by 220. It will be perceived in the first case , that the 232 is in fact multiplied by 22 tens ; in the second , that 232 ...
Page 38
... multiplicand , and the number by which you multiply , called the multiplier , in a horizontal position , with an oblique cross between them ; thus 5X4 ; and afterwards the result of the multipli- cation , which result is called the ...
... multiplicand , and the number by which you multiply , called the multiplier , in a horizontal position , with an oblique cross between them ; thus 5X4 ; and afterwards the result of the multipli- cation , which result is called the ...
Page 44
... multiplicand , and the third is , where cyphers are " annexed " both to the multiplier and multiplicand . We will explain these three cases in the order , in which we have mentioned them . And first , we will take the case in which ...
... multiplicand , and the third is , where cyphers are " annexed " both to the multiplier and multiplicand . We will explain these three cases in the order , in which we have mentioned them . And first , we will take the case in which ...
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A Description of the Visible Numerator: With Instructions for Its Use ... Oliver A Shaw No preview available - 2016 |
A Description of the Visible Numerator: With Instructions for Its Use ... Oliver A Shaw No preview available - 2016 |
Common terms and phrases
11 equal 14 pence 22 equal 24 units 9 tens 9 units answer ascer black board books on Arithmetic call the solid carry comma contained cube root cyphers annexed Decimal Fractions denomination denoting divide Dividend Division Divisor Example expressed in figures farthings hundred and fifty-three hundred and six hundred and three hundred thousand hundred's place hundreds 3 tens hundredths illustration lastly learner leaves 9 left hand means merator millions mind minuend mode multi multiplicand multiply hundreds multiply tens operation order of units penny place of pence Plate XI principles pupil quotient qurs remain right hand sandths say twice sextillions shilling signify simple slate solid feet solid of ten square root subtract subtrahend ten's place tenths of thousandths thing thou thousand two hundred thousand's place three hundred three tens three units unit's place Visible Numerator Vulgar Fractions whole numbers Write in figures write the figure written
Popular passages
Page 73 - Multiply the numerators together for a new numerator, and the denominators together for a new denominator.
Page 90 - ... from the left hand period, and to the remainder bring down the next period for a dividend.
Page 20 - In any proportion, the product of the means is equal to the product of the extremes.
Page 57 - By division we ascertain how often one number is contained in another. The number to be divided is called the dividend. The number to divide by is called the divisor. The number of times the dividend contains the divisor is called the quotient.
Page 26 - That is, ten units make one ten, ten tens make one hundred, ten hundreds make one thousand, and so on.
Page 86 - Point off the given number into periods of two figures each, by putting a dot over the units, another over the hundreds, and so on. These dots show the number of figures of which the root will consist.
Page 19 - In general, when we have occasion to consider quantities less than unity, we suppose unity divided into a certain number of parts, sufficiently small to be contained a certain number...
Page 25 - ... tens; the third, hund-reds; the fourth, thousands; the fifth, tens of thousands ; the sixth, hundreds of thousands; the seventh, millions, etc.
Page 20 - That is — If the first be to the second as the third is to the fourth : the first and second together are to the second as the third and fourth together are to the fourth.
Page 81 - To find the interest of any sum in federal money, at 6 per cent., it is only necessary to multiply the principal by the interest of $ 1 for the given time, found as above directed, and written as a decimal fraction, remembering to point off as many places for decimals in the product as there are decimal places in both the factors counted together.