Learn on PengiIllustrative Mathematics, Grade 8Chapter 7: Exponents and Scientific Notation

Lesson 3: Scientific Notation

In this Grade 8 lesson from Illustrative Mathematics Chapter 7, students learn to represent very small numbers expressed as multiples of negative powers of 10 on a number line, building foundational skills in scientific notation. Using real-world measurements such as the radius of an electron and the mass of a proton, students practice converting decimals like 0.0000000000003 cm into the form a × 10ⁿ and plotting them accurately on scaled number lines. The lesson also develops students' ability to compare and estimate the relative size of quantities written in scientific notation.

Section 1

Introduction to Scientific Notation

Property

A number is expressed in scientific notation when it is of the form:
a x 10^n
where "a" is greater than or equal to 1 and less than 10, and "n" is an integer. Scientific notation is a useful way of writing very large or very small numbers.

Examples

  • For a large number like 4,000, we write it as 4 x 1000, which becomes 4 x 10^3 in scientific notation.
  • For a small number like 0.004, we write it as 4 x (1/1000), which becomes 4 x 10^-3 in scientific notation.
  • The population of the world, over 6,850,000,000, can be written more simply as 6.85 x 10^9.

Explanation

Think of scientific notation as a compact, secret code for huge or tiny numbers. The first number (the coefficient) holds the most important, significant digits, while the power of 10 acts as an instruction manual, telling you exactly how many places to move the decimal point to see the number's true size.

Section 2

Decimal to Scientific Notation

Property

Scientific Notation
A number is expressed in scientific notation when it is of the form a×10na \times 10^n where 1a<101 \le |a| < 10 and nn is an integer.

How to Convert from Decimal to Scientific Notation

  1. Move the decimal point so that the first factor is greater than or equal to 1 but less than 10.
  2. Count the number of decimal places, nn, that the decimal point was moved.
  3. Write the number as a product with a power of 10. If the original number is greater than 1, the power of 10 will be 10n10^n. If the number is between 0 and 1, the power will be 10n10^{-n}.

Examples

  • To write 8,300,000 in scientific notation, move the decimal 6 places to the left to get 8.3. So, the notation is 8.3×1068.3 \times 10^6.

Book overview

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Chapter 7: Exponents and Scientific Notation

  1. Lesson 1

    Lesson 1: Exponent Review

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  2. Lesson 2

    Lesson 2: Exponent Rules

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  3. Lesson 3Current

    Lesson 3: Scientific Notation

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Lesson overview

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Section 1

Introduction to Scientific Notation

Property

A number is expressed in scientific notation when it is of the form:
a x 10^n
where "a" is greater than or equal to 1 and less than 10, and "n" is an integer. Scientific notation is a useful way of writing very large or very small numbers.

Examples

  • For a large number like 4,000, we write it as 4 x 1000, which becomes 4 x 10^3 in scientific notation.
  • For a small number like 0.004, we write it as 4 x (1/1000), which becomes 4 x 10^-3 in scientific notation.
  • The population of the world, over 6,850,000,000, can be written more simply as 6.85 x 10^9.

Explanation

Think of scientific notation as a compact, secret code for huge or tiny numbers. The first number (the coefficient) holds the most important, significant digits, while the power of 10 acts as an instruction manual, telling you exactly how many places to move the decimal point to see the number's true size.

Section 2

Decimal to Scientific Notation

Property

Scientific Notation
A number is expressed in scientific notation when it is of the form a×10na \times 10^n where 1a<101 \le |a| < 10 and nn is an integer.

How to Convert from Decimal to Scientific Notation

  1. Move the decimal point so that the first factor is greater than or equal to 1 but less than 10.
  2. Count the number of decimal places, nn, that the decimal point was moved.
  3. Write the number as a product with a power of 10. If the original number is greater than 1, the power of 10 will be 10n10^n. If the number is between 0 and 1, the power will be 10n10^{-n}.

Examples

  • To write 8,300,000 in scientific notation, move the decimal 6 places to the left to get 8.3. So, the notation is 8.3×1068.3 \times 10^6.

Book overview

Jump across lessons in the current chapter without opening the full course modal.

Continue this chapter

Chapter 7: Exponents and Scientific Notation

  1. Lesson 1

    Lesson 1: Exponent Review

    LearnPractice
  2. Lesson 2

    Lesson 2: Exponent Rules

    LearnPractice
  3. Lesson 3Current

    Lesson 3: Scientific Notation

    LearnPractice