3. Rule for Multiplication of Signed Numbers
To multiple two signed numbers, we multiply their absolute
values and use the following rules for the sign of the product.
Multiplication and Division of Signed Numbers
4. Rule for Multiplication of Signed Numbers
To multiple two signed numbers, we multiply their absolute
values and use the following rules for the sign of the product.
+ * + = – * – = + ;
Multiplication and Division of Signed Numbers
5. Rule for Multiplication of Signed Numbers
To multiple two signed numbers, we multiply their absolute
values and use the following rules for the sign of the product.
+ * + = – * – = + ;
+ * – = – * + = – ;
Multiplication and Division of Signed Numbers
6. Rule for Multiplication of Signed Numbers
To multiple two signed numbers, we multiply their absolute
values and use the following rules for the sign of the product.
+ * + = – * – = + ;
+ * – = – * + = – ;
Multiplication and Division of Signed Numbers
Two numbers with the same sign multiplied yield positive
products.
7. Rule for Multiplication of Signed Numbers
To multiple two signed numbers, we multiply their absolute
values and use the following rules for the sign of the product.
+ * + = – * – = + ;
+ * – = – * + = – ;
Multiplication and Division of Signed Numbers
Two numbers with the same sign multiplied yield a positive
product.
Two numbers with opposite signs multiplied yield a negative
product.
8. Rule for Multiplication of Signed Numbers
To multiple two signed numbers, we multiply their absolute
values and use the following rules for the sign of the product.
+ * + = – * – = + ;
+ * – = – * + = – ;
Multiplication and Division of Signed Numbers
Two numbers with the same sign multiplied yield a positive
product.
Two numbers with opposite signs multiplied yield a negative
product.
Example A.
a. 5 * (4) = –5 * (–4)
9. Rule for Multiplication of Signed Numbers
To multiple two signed numbers, we multiply their absolute
values and use the following rules for the sign of the product.
+ * + = – * – = + ;
+ * – = – * + = – ;
Multiplication and Division of Signed Numbers
Two numbers with the same sign multiplied yield a positive
product.
Two numbers with opposite signs multiplied yield a negative
product.
Example A.
a. 5 * (4) = –5 * (–4) = 20
10. Rule for Multiplication of Signed Numbers
To multiple two signed numbers, we multiply their absolute
values and use the following rules for the sign of the product.
+ * + = – * – = + ;
+ * – = – * + = – ;
Multiplication and Division of Signed Numbers
Two numbers with the same sign multiplied yield a positive
product.
Two numbers with opposite signs multiplied yield a negative
product.
Example A.
a. 5 * (4) = –5 * (–4) = 20
b. –5 * (4) = 5 * (–4)
11. Rule for Multiplication of Signed Numbers
To multiple two signed numbers, we multiply their absolute
values and use the following rules for the sign of the product.
+ * + = – * – = + ;
+ * – = – * + = – ;
Multiplication and Division of Signed Numbers
Two numbers with the same sign multiplied yield a positive
product.
Two numbers with opposite signs multiplied yield a negative
product.
Example A.
a. 5 * (4) = –5 * (–4) = 20
b. –5 * (4) = 5 * (–4) = –20
12. Rule for Multiplication of Signed Numbers
To multiple two signed numbers, we multiply their absolute
values and use the following rules for the sign of the product.
+ * + = – * – = + ;
+ * – = – * + = – ;
Multiplication and Division of Signed Numbers
Two numbers with the same sign multiplied yield a positive
product.
Two numbers with opposite signs multiplied yield a negative
product.
Example A.
a. 5 * (4) = –5 * (–4) = 20
b. –5 * (4) = 5 * (–4) = –20
In algebra, multiplication operation are not always written
down explicitly.
13. Rule for Multiplication of Signed Numbers
To multiple two signed numbers, we multiply their absolute
values and use the following rules for the sign of the product.
+ * + = – * – = + ;
+ * – = – * + = – ;
Multiplication and Division of Signed Numbers
Two numbers with the same sign multiplied yield a positive
product.
Two numbers with opposite signs multiplied yield a negative
product.
Example A.
a. 5 * (4) = –5 * (–4) = 20
b. –5 * (4) = 5 * (–4) = –20
In algebra, multiplication operation are not always written
down explicitly. Instead we use the following rules to identify
multiplication operations.
14. Multiplication and Division of Signed Numbers
● If there is no operation indicated between two quantities, the
operation between them is multiplication.
15. Multiplication and Division of Signed Numbers
● If there is no operation indicated between two quantities, the
operation between them is multiplication. Hence xy means x * y.
16. Multiplication and Division of Signed Numbers
● If there is no operation indicated between a set of ( ) and a
quantity, the operation between them is multiplication.
● If there is no operation indicated between two quantities, the
operation between them is multiplication. Hence xy means x * y.
17. Multiplication and Division of Signed Numbers
● If there is no operation indicated between a set of ( ) and a
quantity, the operation between them is multiplication.
Hence x(a + b) = x * (a + b ) and (a + b)x = (a + b) * x.
● If there is no operation indicated between two quantities, the
operation between them is multiplication. Hence xy means x * y.
18. Multiplication and Division of Signed Numbers
● If there is no operation indicated between two sets of ( )’s,
the operation between them is multiplication.
● If there is no operation indicated between a set of ( ) and a
quantity, the operation between them is multiplication.
Hence x(a + b) = x * (a + b ) and (a + b)x = (a + b) * x.
● If there is no operation indicated between two quantities, the
operation between them is multiplication. Hence xy means x * y.
19. Multiplication and Division of Signed Numbers
● If there is no operation indicated between two sets of ( )’s,
the operation between them is multiplication.
Hence (x + y)(a + b) = (x + y) * (a + b)
● If there is no operation indicated between a set of ( ) and a
quantity, the operation between them is multiplication.
Hence x(a + b) = x * (a + b ) and (a + b)x = (a + b) * x.
● If there is no operation indicated between two quantities, the
operation between them is multiplication. Hence xy means x * y.
20. Multiplication and Division of Signed Numbers
● If there is no operation indicated between two sets of ( )’s,
the operation between them is multiplication.
Hence (x + y)(a + b) = (x + y) * (a + b)
● If there is no operation indicated between a set of ( ) and a
quantity, the operation between them is multiplication.
Hence x(a + b) = x * (a + b ) and (a + b)x = (a + b) * x.
● If there is no operation indicated between two quantities, the
operation between them is multiplication. Hence xy means x * y.
However, if there is a “+” or “–” sign between the ( ) and a
quantity, then the operation is to combine.
21. ● If there is no operation indicated between two quantities, the
operation between them is multiplication. Hence xy means x * y.
Multiplication and Division of Signed Numbers
● If there is no operation indicated between two sets of ( )’s,
the operation between them is multiplication.
Hence (x + y)(a + b) = (x + y) * (a + b)
● If there is no operation indicated between a set of ( ) and a
quantity, the operation between them is multiplication.
Hence x(a + b) = x * (a + b ) and (a + b)x = (a + b) * x.
However, if there is a “+” or “–” sign between the ( ) and a
quantity, then the operation is to combine.
Hence 3(+5) = (+5)3 =15,
22. Multiplication and Division of Signed Numbers
● If there is no operation indicated between two sets of ( )’s,
the operation between them is multiplication.
Hence (x + y)(a + b) = (x + y) * (a + b)
● If there is no operation indicated between a set of ( ) and a
quantity, the operation between them is multiplication.
Hence x(a + b) = x * (a + b ) and (a + b)x = (a + b) * x.
● If there is no operation indicated between two quantities, the
operation between them is multiplication. Hence xy means x * y.
However, if there is a “+” or “–” sign between the ( ) and a
quantity, then the operation is to combine.
Hence 3(+5) = (+5)3 =15, but 3 + (5) = (3) + 5 = 8,
23. Multiplication and Division of Signed Numbers
● If there is no operation indicated between two sets of ( )’s,
the operation between them is multiplication.
Hence (x + y)(a + b) = (x + y) * (a + b)
● If there is no operation indicated between a set of ( ) and a
quantity, the operation between them is multiplication.
Hence x(a + b) = x * (a + b ) and (a + b)x = (a + b) * x.
● If there is no operation indicated between two quantities, the
operation between them is multiplication. Hence xy means x * y.
However, if there is a “+” or “–” sign between the ( ) and a
quantity, then the operation is to combine.
Hence 3(+5) = (+5)3 =15, but 3 + (5) = (3) + 5 = 8,
and –5(–5) = (–5)(–5) = 25,
24. Multiplication and Division of Signed Numbers
● If there is no operation indicated between two sets of ( )’s,
the operation between them is multiplication.
Hence (x + y)(a + b) = (x + y) * (a + b)
● If there is no operation indicated between a set of ( ) and a
quantity, the operation between them is multiplication.
Hence x(a + b) = x * (a + b ) and (a + b)x = (a + b) * x.
● If there is no operation indicated between two quantities, the
operation between them is multiplication. Hence xy means x * y.
However, if there is a “+” or “–” sign between the ( ) and a
quantity, then the operation is to combine.
Hence 3(+5) = (+5)3 =15, but 3 + (5) = (3) + 5 = 8,
and –5(–5) = (–5)(–5) = 25, but (–5) – 5 = –5 – (5) = –10.
25. Multiplication and Division of Signed Numbers
However, if there is a “+” or “–” sign between the ( ) and a
quantity, then the operation is to combine.
Hence 3(+5) = (+5)3 =15, but 3 + (5) = (3) + 5 = 8,
and –5(–5) = (–5)(–5) = 25, but (–5) – 5 = –5 – (5) = –10.
● If there is no operation indicated between two sets of ( )’s,
the operation between them is multiplication.
Hence (x + y)(a + b) = (x + y) * (a + b)
● If there is no operation indicated between a set of ( ) and a
quantity, the operation between them is multiplication.
Hence x(a + b) = x * (a + b ) and (a + b)x = (a + b) * x.
To multiply many signed numbers together, we always
determine the sign of the product first, then multiply just the
numbers themselves. The sign of the product is determined by
the following Even–Odd Rules.
● If there is no operation indicated between two quantities, the
operation between them is multiplication. Hence xy means x * y.
26. Even-Odd Rule for the Sign of a Product
• If there are even number of negative numbers in the
multiplication, the product is positive.
Multiplication and Division of Signed Numbers
27. Even-Odd Rule for the Sign of a Product
• If there are even number of negative numbers in the
multiplication, the product is positive.
• If there are odd number of negative numbers in the
multiplication, the product is negative.
Multiplication and Division of Signed Numbers
28. Even-Odd Rule for the Sign of a Product
• If there are even number of negative numbers in the
multiplication, the product is positive.
• If there are odd number of negative numbers in the
multiplication, the product is negative.
Example B.
a. –1(–2 ) 2 (–1)
Multiplication and Division of Signed Numbers
29. Even-Odd Rule for the Sign of a Product
• If there are even number of negative numbers in the
multiplication, the product is positive.
• If there are odd number of negative numbers in the
multiplication, the product is negative.
Example B.
a. –1(–2 ) 2 (–1)
Multiplication and Division of Signed Numbers
three negative numbers, so the product is negative
30. Even-Odd Rule for the Sign of a Product
• If there are even number of negative numbers in the
multiplication, the product is positive.
• If there are odd number of negative numbers in the
multiplication, the product is negative.
Example B.
a. –1(–2 ) 2 (–1) = – 4
Multiplication and Division of Signed Numbers
three negative numbers, so the product is negative
4 came from 1*2*2*1 (just the numbers)
31. Even-Odd Rule for the Sign of a Product
• If there are even number of negative numbers in the
multiplication, the product is positive.
• If there are odd number of negative numbers in the
multiplication, the product is negative.
Example B.
a. –1(–2 ) 2 (–1) = – 4
b. (–2)4
Multiplication and Division of Signed Numbers
three negative numbers, so the product is negative
32. Even-Odd Rule for the Sign of a Product
• If there are even number of negative numbers in the
multiplication, the product is positive.
• If there are odd number of negative numbers in the
multiplication, the product is negative.
Example B.
a. –1(–2 ) 2 (–1) = – 4
b. (–2)4 = (–2 )(–2)(–2)(–2)
Multiplication and Division of Signed Numbers
three negative numbers, so the product is negative
33. Even-Odd Rule for the Sign of a Product
• If there are even number of negative numbers in the
multiplication, the product is positive.
• If there are odd number of negative numbers in the
multiplication, the product is negative.
Example B.
a. –1(–2 ) 2 (–1) = – 4
b. (–2)4 = (–2 )(–2)(–2)(–2)
Multiplication and Division of Signed Numbers
three negative numbers, so the product is negative
four negative numbers, so the product is positive
34. Even-Odd Rule for the Sign of a Product
• If there are even number of negative numbers in the
multiplication, the product is positive.
• If there are odd number of negative numbers in the
multiplication, the product is negative.
Example B.
a. –1(–2 ) 2 (–1) = – 4
b. (–2)4 = (–2 )(–2)(–2)(–2) = 16
Multiplication and Division of Signed Numbers
three negative numbers, so the product is negative
four negative numbers, so the product is positive
35. Even-Odd Rule for the Sign of a Product
• If there are even number of negative numbers in the
multiplication, the product is positive.
• If there are odd number of negative numbers in the
multiplication, the product is negative.
Example B.
a. –1(–2 ) 2 (–1) = – 4
b. (–2)4 = (–2 )(–2)(–2)(–2) = 16
Fact: A quantity raised to an even power is always positive
i.e. xeven is always positive (except 0).
Multiplication and Division of Signed Numbers
three negative numbers, so the product is negative
four negative numbers, so the product is positive
37. Rule for the Sign of a Quotient
Multiplication and Division of Signed Numbers
In algebra, a ÷ b is written as a/b or .
a
b
38. Rule for the Sign of a Quotient
Division of signed numbers follows the same sign-rules for
multiplications.
Multiplication and Division of Signed Numbers
In algebra, a ÷ b is written as a/b or .
a
b
39. Rule for the Sign of a Quotient
Division of signed numbers follows the same sign-rules for
multiplications.
Multiplication and Division of Signed Numbers
In algebra, a ÷ b is written as a/b or .
a
b
+
+
=
–
– = +
+
+
=
–
–=
–
40. Rule for the Sign of a Quotient
Division of signed numbers follows the same sign-rules for
multiplications.
Two numbers with the same sign divided yield a positive
quotient.
Multiplication and Division of Signed Numbers
In algebra, a ÷ b is written as a/b or .
a
b
+
+
=
–
– = +
+
+
=
–
–=
–
41. Rule for the Sign of a Quotient
Division of signed numbers follows the same sign-rules for
multiplications.
Two numbers with the same sign divided yield a positive
quotient.
Two numbers with opposite signs divided yield a negative
quotient.
Multiplication and Division of Signed Numbers
In algebra, a ÷ b is written as a/b or .
a
b
+
+
=
–
– = +
+
+
=
–
–=
–
42. Rule for the Sign of a Quotient
Division of signed numbers follows the same sign-rules for
multiplications.
Two numbers with the same sign divided yield a positive
quotient.
Two numbers with opposite signs divided yield a negative
quotient.
Multiplication and Division of Signed Numbers
Example C.
a.
In algebra, a ÷ b is written as a/b or .
a
b
+
+
=
–
– = +
+
+
=
–
–=
–
20
4
= –20
–4
43. Rule for the Sign of a Quotient
Division of signed numbers follows the same sign-rules for
multiplications.
Two numbers with the same sign divided yield a positive
quotient.
Two numbers with opposite signs divided yield a negative
quotient.
Multiplication and Division of Signed Numbers
Example C.
a.
In algebra, a ÷ b is written as a/b or .
a
b
+
+
=
–
– = +
+
+
=
–
–=
–
20
4
= –20
–4
= 5
44. Rule for the Sign of a Quotient
Division of signed numbers follows the same sign-rules for
multiplications.
Two numbers with the same sign divided yield a positive
quotient.
Two numbers with opposite signs divided yield a negative
quotient.
Multiplication and Division of Signed Numbers
Example C.
a.
b . –20 / 4 = 20 / (–4)
In algebra, a ÷ b is written as a/b or .
a
b
+
+
=
–
– = +
+
+
=
–
–=
–
20
4
= –20
–4
= 5
45. Rule for the Sign of a Quotient
Division of signed numbers follows the same sign-rules for
multiplications.
Two numbers with the same sign divided yield a positive
quotient.
Two numbers with opposite signs divided yield a negative
quotient.
Multiplication and Division of Signed Numbers
Example C.
a.
b . –20 / 4 = 20 / (–4) = –5
In algebra, a ÷ b is written as a/b or .
a
b
+
+
=
–
– = +
+
+
=
–
–=
–
20
4
= –20
–4
= 5
46. Rule for the Sign of a Quotient
Division of signed numbers follows the same sign-rules for
multiplications.
Two numbers with the same sign divided yield a positive
quotient.
Two numbers with opposite signs divided yield a negative
quotient.
Multiplication and Division of Signed Numbers
Example C.
a.
b . –20 / 4 = 20 / (–4) = –5
In algebra, a ÷ b is written as a/b or .
a
b
+
+
=
–
– = +
+
+
=
–
–=
–
20
4
= –20
–4
= 5
c.
(–6)2
=
–4
47. Rule for the Sign of a Quotient
Division of signed numbers follows the same sign-rules for
multiplications.
Two numbers with the same sign divided yield a positive
quotient.
Two numbers with opposite signs divided yield a negative
quotient.
Multiplication and Division of Signed Numbers
Example C.
a.
b . –20 / 4 = 20 / (–4) = –5
In algebra, a ÷ b is written as a/b or .
a
b
+
+
=
–
– = +
+
+
=
–
–=
–
20
4
= –20
–4
= 5
c.
(–6)2
=
36
–4–4
48. Rule for the Sign of a Quotient
Division of signed numbers follows the same sign-rules for
multiplications.
Two numbers with the same sign divided yield a positive
quotient.
Two numbers with opposite signs divided yield a negative
quotient.
Multiplication and Division of Signed Numbers
Example C.
a.
b . –20 / 4 = 20 / (–4) = –5
In algebra, a ÷ b is written as a/b or .
a
b
+
+
=
–
– = +
+
+
=
–
–=
–
20
4
= –20
–4
= 5
c.
(–6)2
=
36
–4 =
–4 –9
49. The Even–Odd Rule applies to more length * and / operations
problems.
Multiplication and Division of Signed Numbers
50. The Even–Odd Rule applies to more length * and / operations
problems.
Multiplication and Division of Signed Numbers
Example D. Simplify.
(– 4)6(–1)(–3)
(–2)(–5)12
51. The Even–Odd Rule applies to more length * and / operations
problems.
Multiplication and Division of Signed Numbers
Example D. Simplify.
(– 4)6(–1)(–3)
(–2)(–5)12
five negative numbers
so the product is negative
52. The Even–Odd Rule applies to more length * and / operations
problems.
Multiplication and Division of Signed Numbers
Example D. Simplify.
(– 4)6(–1)(–3)
(–2)(–5)12
= –
five negative numbers
so the product is negative
53. The Even–Odd Rule applies to more length * and / operations
problems.
Multiplication and Division of Signed Numbers
Example D. Simplify.
(– 4)6(–1)(–3)
(–2)(–5)12
= –
five negative numbers
so the product is negative
simplify just the numbers4(6)(3)
2(5)(12)
54. The Even–Odd Rule applies to more length * and / operations
problems.
Multiplication and Division of Signed Numbers
Example D. Simplify.
(– 4)6(–1)(–3)
(–2)(–5)12
= –
five negative numbers
so the product is negative
simplify just the numbers4(6)(3)
2(5)(12)
= –
3
5
55. The Even–Odd Rule applies to more length * and / operations
problems.
Multiplication and Division of Signed Numbers
Example D. Simplify.
(– 4)6(–1)(–3)
(–2)(–5)12
= –
five negative numbers
so the product is negative
simplify just the numbers4(6)(3)
2(5)(12)
= –
3
5
Various form of the Even–Odd Rule extend to algebra and
geometry. It’s the basis of many decisions and conclusions in
mathematics problems.
The following is an example of the two types of graphs there
are due to this Even–Odd Rule. (Don’t worry about how they
are produced.)
56. The Even Power Graphs vs. Odd Power Graphs of y = xN
Multiplication and Division of Signed Numbers
57. Make sure that you interpret the operations correctly.
Exercise A. Calculate the following expressions.
1. 3 – 3 2. 3(–3) 3. (3) – 3 4. (–3) – 3
5. –3(–3) 6. –(–3)(–3) 7. (–3) – (–3) 8. –(–3) – (–3)
B.Multiply. Determine the sign first.
9. 2(–3) 10. (–2)(–3) 11. (–1)(–2)(–3)
12. 2(–2)(–3) 13. (–2)(–2)(–2) 14. (–2)(–2)(–2)(–2)
15. (–1)(–2)(–2)(–2)(–2) 16. 2(–1)(3)(–1)(–2)
17. 12
–3
18. –12
–3
19. –24
–8
21. (2)(–6)
–8
C. Simplify. Determine the sign and cancel first.
20. 24
–12
22. (–18)(–6)
–9
23. (–9)(6)
(12)(–3)
24. (15)(–4)
(–8)(–10)
25. (–12)(–9)
(– 27)(15)
26. (–2)(–6)(–1)
(2)(–3)(–2)
27. 3(–5)(–4)
(–2)(–1)(–2)
28. (–2)(3)(–4)5(–6)
(–3)(4)(–5)6(–7)
Multiplication and Division of Signed Numbers