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Index Notation

The document discusses index notation and how it is used to represent repeated multiplication. It covers the basic rules for multiplying and dividing terms with the same base, including adding/subtracting the indices. It also discusses zero and negative indices, and how numbers raised to the power of 0 or negative powers can be evaluated. Key rules covered are a^m × a^n = a^(m+n), a^m ÷ a^n = a^(m-n), a^0 = 1, and a^-n = 1/a^n.

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Index notation The following slides cover the use of index notation. Use these to help with the homework. Any questions please use the comment box (remember to give your email if you want a reply).
Index notation We use index notation to show repeated multiplication by the same number. For example, we can use index notation to write 2 × 2 × 2 × 2 × 2 as 2 5 This number is read as ‘two to the power of five’. 2 5 = 2 × 2 × 2 × 2 × 2 = 32 base Index or power
Index notation Evaluate the following: 6 2 = 6 × 6 = 36 3 4 = 3 × 3 × 3 × 3 = 81 (–5) 3 = – 5 × –5 × –5 = – 125 2 7 = 2 × 2 × 2 × 2 × 2 × 2 × 2 = 128 (–1) 5 = – 1 × –1 × –1 × –1 × –1 = – 1 (–4) 4 = – 4 × –4 × –4 × –4 = 64 When we raise a negative number to an odd power the answer is negative . When we raise a negative number to an even power the answer is positive .
Calculating powers We can use the x y key on a calculator to find powers. For example, to calculate the value of 7 4 we key in: The calculator shows this as 2401. 7 4 = 7 × 7 × 7 × 7 = 2401 7 x y 4 =
The first index law When we multiply two numbers written in index form and with the same base we can see an interesting result. For example, 3 4 × 3 2 = (3 × 3 × 3 × 3) × (3 × 3) = 3 × 3 × 3 × 3 × 3 × 3 = 3 6 7 3 × 7 5 = (7 × 7 × 7) × (7 × 7 × 7 × 7 × 7) = 7 × 7 × 7 × 7 × 7 × 7 × 7 × 7 = 7 8 What do you notice? When we multiply two numbers with the same base the indices are added . = 3 (4 + 2) = 7 (3 + 5)
The second index law When we divide two numbers written in index form and with the same base we can see another interesting result. For example, 4 5 ÷ 4 2 = 4 × 4 × 4 = 4 3 5 6 ÷ 5 4 = 5 × 5 = 5 2 What do you notice? = 4 (5 – 2) = 5 (6 – 4) When we divide two numbers with the same base the indices are subtracted . 4 × 4 × 4 × 4 × 4 4 × 4 = 5 × 5 × 5 × 5 × 5 × 5 5 × 5 × 5 × 5 =
Zero indices Look at the following division: 6 4 ÷ 6 4 = 1 Using the second index law 6 4 ÷ 6 4 = 6 (4 – 4) = 6 0 That means that 6 0 = 1 In fact, any number raised to the power of 0 is equal to 1. For example, 10 0 = 1 3.452 0 = 1 723 538 592 0 = 1
Negative indices Look at the following division: 3 2 ÷ 3 4 = Using the second index law 3 2 ÷ 3 4 = 3 (2 – 4) = 3 –2 That means that 3 –2 = Similarly, 6 –1 = 7 –4 = and 5 –3 = 3 × 3 3 × 3 × 3 × 3 = 1 3 × 3 = 1 3 2 1 3 2 1 6 1 7 4 1 5 3
Using algebra We can write all of these results algebraically. a m × a n = a ( m + n ) a m ÷ a n = a (m – n) a 0 = 1 a –1 = 1 a a – n = 1 a n

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Overview of index notation and encouragement to ask questions via comments.

Index notation for repeated multiplication; examples include 2^5=32, 6^2=36; sign behavior with odd/even powers.

Using the xy key on calculators to compute powers, illustrating 7^4=2401.

When multiplying same base indices, add the exponents: e.g., 3^4 × 3^2 = 3^6.

When dividing same base indices, subtract the exponents: e.g., 4^5 ÷ 4^2 = 4^3.

Any number raised to the power of zero equals 1; e.g., 6^0 = 1.

Negative exponents represent the reciprocal; e.g., 3^-2 = 1/3^2.

Algebraic rules for indices: a^m × a^n = a^(m+n), a^m ÷ a^n = a^(m-n), etc.

Index Notation

  • 1.
    Index notation Thefollowing slides cover the use of index notation. Use these to help with the homework. Any questions please use the comment box (remember to give your email if you want a reply).
  • 2.
    Index notation Weuse index notation to show repeated multiplication by the same number. For example, we can use index notation to write 2 × 2 × 2 × 2 × 2 as 2 5 This number is read as ‘two to the power of five’. 2 5 = 2 × 2 × 2 × 2 × 2 = 32 base Index or power
  • 3.
    Index notation Evaluatethe following: 6 2 = 6 × 6 = 36 3 4 = 3 × 3 × 3 × 3 = 81 (–5) 3 = – 5 × –5 × –5 = – 125 2 7 = 2 × 2 × 2 × 2 × 2 × 2 × 2 = 128 (–1) 5 = – 1 × –1 × –1 × –1 × –1 = – 1 (–4) 4 = – 4 × –4 × –4 × –4 = 64 When we raise a negative number to an odd power the answer is negative . When we raise a negative number to an even power the answer is positive .
  • 4.
    Calculating powers Wecan use the x y key on a calculator to find powers. For example, to calculate the value of 7 4 we key in: The calculator shows this as 2401. 7 4 = 7 × 7 × 7 × 7 = 2401 7 x y 4 =
  • 5.
    The first indexlaw When we multiply two numbers written in index form and with the same base we can see an interesting result. For example, 3 4 × 3 2 = (3 × 3 × 3 × 3) × (3 × 3) = 3 × 3 × 3 × 3 × 3 × 3 = 3 6 7 3 × 7 5 = (7 × 7 × 7) × (7 × 7 × 7 × 7 × 7) = 7 × 7 × 7 × 7 × 7 × 7 × 7 × 7 = 7 8 What do you notice? When we multiply two numbers with the same base the indices are added . = 3 (4 + 2) = 7 (3 + 5)
  • 6.
    The second indexlaw When we divide two numbers written in index form and with the same base we can see another interesting result. For example, 4 5 ÷ 4 2 = 4 × 4 × 4 = 4 3 5 6 ÷ 5 4 = 5 × 5 = 5 2 What do you notice? = 4 (5 – 2) = 5 (6 – 4) When we divide two numbers with the same base the indices are subtracted . 4 × 4 × 4 × 4 × 4 4 × 4 = 5 × 5 × 5 × 5 × 5 × 5 5 × 5 × 5 × 5 =
  • 7.
    Zero indices Lookat the following division: 6 4 ÷ 6 4 = 1 Using the second index law 6 4 ÷ 6 4 = 6 (4 – 4) = 6 0 That means that 6 0 = 1 In fact, any number raised to the power of 0 is equal to 1. For example, 10 0 = 1 3.452 0 = 1 723 538 592 0 = 1
  • 8.
    Negative indices Lookat the following division: 3 2 ÷ 3 4 = Using the second index law 3 2 ÷ 3 4 = 3 (2 – 4) = 3 –2 That means that 3 –2 = Similarly, 6 –1 = 7 –4 = and 5 –3 = 3 × 3 3 × 3 × 3 × 3 = 1 3 × 3 = 1 3 2 1 3 2 1 6 1 7 4 1 5 3
  • 9.
    Using algebra Wecan write all of these results algebraically. a m × a n = a ( m + n ) a m ÷ a n = a (m – n) a 0 = 1 a –1 = 1 a a – n = 1 a n