In the chapter Positive and Negative Quantities we explained algebraic addition and subtraction. In this chapter we shall cover simple algebraic multiplication and division.
Algebraic Multiplication
Definition: One number is said to be multiplied by another when we do to the former what is done to unity to obtain the latter.
Thus, since 4 = 1+1+1+1, we must have
Similarly,
Again, since -4 = -1-1-1-1
Similarly,
Also,
The number multiplied is called the multiplicand and the number by which it is multiplied is called the multiplier, the result is called the product.
Fundamental Propositions of Multiplications
1. To prove that
First let
Place
1 1 1 1 1 1 . . . . . .
1 1 1 1 1 1 . . . . . .
1 1 1 1 1 1 . . . . . .
1 1 1 1 1 1 . . . . . .
……
……
To
This being done, evidently it may also be said that we have written down b columns each containing a unites,
Now let us count up the total number of units thus written down
Since we have got a rows each containing b units and the total number of units = (number in the 1st row) + (number in the 2nd row) + (number in the 3rd row) …… + (number in the ath row) = b+b+b+b …… to a terms = a\timesb
Also since we have got b columns each containing a units the total number of units = (number in the 1st column) + (number in the second column) …… = (number in the bth column) = a+a+a+a+a…. to b terms = b \times a
Hence from the above explanation, it is clear that a\timesb and b\timesa gives the same result.
2. To prove that
Place b brackets in a horizontal row each containing c units and write down a rows in such a manner that the brackets in similar positions in the different rows may be in the same vertical column, thus
[c] [c] [c] [c]….
[c] [c] [c] [c]….
[c] [c] [c] [c]….
……
……
To
This being done, it may also be said that we have written down
As we got together
Again, since we got
Again, since we have got
Hence from the above explanation it is clear that,
Note:
Products of monomial expressions can be always found by the method illustrated in the last article. It is necessary, however, when dealing with more complicated cases of multiplication that such products should be found mentally. Hence the student must get thoroughly accustomed to this kind of mental work.
Algebraic Division
One quantity
Thus when,
When one quantity is divided by another, the former is called the dividend and the latter is called the divisor, the result is called the quotient.
Fundamental Propositions of Divisions
1. To prove that
If we denote
Hence,
Note:
To divide any quantity successively by two others is the same as to divide it at once by their product.
2. To prove that
We have,
Hence
Thus, to divide any quantity by another is the same as to multiply the former by the reciprocal of the latter
Note:
When the dividend and divisor have the same sign, the quotient is positive, and when they have different signs, the quotient is negative. In other words, like signs produce + and unlike signs produce -.
Law of Signs for Multiplications and Divisions
If ‘a’ and ‘b’ are two whole numbers, we have
Thus the product of two whole numbers is positive or negative according as the multiplicand and the multiplier have like or unlike signs
The same thing can be found when the numbers are fractional. For instance
Hence,
Similarly,
Hence we can enunciate the law of signs in a more general way, thus: The sign of the product of any two quantities is a positive or negative according as the multiplicand and the multiplier have like or unlike signs. More briefly, like signs produce +, and unlike signs produce -.
Note:
Thus, every algebraic quantity has got two square roots which are equal in absolute value but opposite in sign.
Examples
1. Divide
The dividend
The divisor
Quotient
2. Divide
The dividend
The divisor
The quotient
3. Show that
4. Multiply
Exercise
- Show that
- Write the product of
and - Divide
by - Find the value of:
- Find the value of:
- I bought
books, pens and pencils. The price of each book was the same as the number of books I bought. The price of each pen was the same as the number of pens I bought. The price of each pencil was the same as the number of pencils I bought. How much money did I spend in all? - There are
boys and girls. Each boy contributes as many rupees as the number of girls and each girl contributes as many rupees as the number of boys. This entire money is divided equally among two men. How much money does each man get?