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* *Reflection: Developing a Conceptual Understanding
Introduction to Scientific Notation - Section 5: How Many X 10?

*Chunking Content.MP4*

*Introduction to Scientific Notation*

# Introduction to Scientific Notation

Lesson 1 of 12

## Objective: SWBAT understand what is meant by the term significant digit and will be able to write numbers in scientific notation.

## Big Idea: In this lesson, students will discover and practice procedures for writing numbers in scientific notation.

#### Warm Up

*8 min*

Today's Warm Up problems provide students practice with multiplying coefficients by powers of ten. As we go over the problems, I will ask students what is happening to each number as we multiply it. My goal is for students to understand that when a number is multiplied by a power of ten, the decimal point in the number moves. This understanding will lead directly to today's objective of writing numbers in scientific notation.

- Intro to Sci Not.notebook (SMART Notebook file)
- Intro to Sci Not Notebook.pdf (Notebook file in PDF)

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After warm up, I introduce today's Learning Objective. I then point out the number 3,450,000 and five different representations of that number. I ask students what they notice about the numbers. Right away, students respond that all the numbers have the same digits, so I ask how the numbers are related to each other. I call on a student who responds, "They are all equal." I ask him to explain or demonstrate how he knows this, so he comes to the board and says, "If I move the decimal for each exponent, they all come out the same." I ask for student understanding by displaying a 'thumbs-up' (understand), 'thumbs-down' (don't understand) or 'thumbs-sideways' (not sure). I see several 'thumbs sideways' and two 'thumbs down', so I ask students to conduct a 30-second 'table talk' where the students at the table who understand the concept explain it to the students who do not. Many groups demonstrate the concept for their tablemates to build understanding.

At the end of 30 seconds, I explain that although each of these representations is equivalent to the original number, only the first one is written in correct scientific notation. I then ask students to describe the attributes of the first representation. They soon realize the only difference is the number of digits before the decimal. I congratulate them on their deduction skills and reiterate that proper scientific notation is written as a number between 1 and 9 multiplied by 10 raised to a power.

#### Resources

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#### Trash Can Sort

*5 min*

To solidify student understanding of proper scientific notation, I move to the next slide, where I have created a sorting activity, Trash Can Sort, in which students drag and drop numbers into one of two columns: 'numbers written in proper scientific notation' and 'NOT written correctly in scientific notation'. I call students at random (using name sticks drawn from a cup) to come to the board to sort. This activity prompts some important points to be made like why 0.23 x 10^4 is not proper scientific notation.

#### Resources

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Once we have sorted all the numbers and gained an understanding that proper scientific notation is expressed as a number between 1 and 9 multiplied by 10 raised to a power, I introduce the definition of 'Significat Digits'. Then, by pulling sticks, I randomly select students to come to the board to circle significant digits in each example number. I explain that recognizing the significant digits is half the work of writing a number in scientific notation.

#### Resources

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#### How Many X 10?

*2 min*

Next, I display the definition of scientific notation (How Many x 10). I show the significant digits multiplied by 10 and ask, "How Many times will you multiply 9.23 times 10 to get 92,300,000? I call on a student to give the answer and then demonstrate her thinking. I restate her explanation while demonstrating with a new number: "So what I heard you say was I need to multiply the coefficient by 10 seven times in order to get 73,200,000. Is that right? So what would my exponent of 10 be?" My goal is for students to see the connection between the number of times they multiply by ten and the number they use as the exponent in scientific notation. This understanding will go far to fix the common misunderstanding some students have of counting zeroes to determine the exponent.

#### Resources

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#### Let's Practice!

*12 min*

At this point, the students are ready to Practice, so I provide nine numbers to convert to scientific notation. I only reveal 3 problems at a time to limit the student's focus. We go through the first two problems together as I guide their thinking first to significant digits, then proper decimal placement, then determining the exponent. After the students complete the third problem without my guidance, I reveal the next three numbers. I circulate through the classroom providing assistance when needed. Once the majority of students have finished, I ask for volunteers to share their responses and ask the class to agree or disagree with 'thumbs-up' or 'thumbs-down'. Finally, I reveal the last 3 problems and ask students to compare answers at their tables as they finish. As I move about the room, I am on the look out for common misconceptions, the most common of which is that the exponent used is the number of zeroes in the given number.

#### Resources

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#### Ticket Out the Door

*7 min*

To gather data on levels of student understanding, I close class with an Exit Ticket. Today's Ticket Out the Door includes three sections: circling significant digits in given numbers, writing number in scientific notation, and evaluating the work of another student. Student responses often reveal misconceptions and common errors that can be used as teaching points the following day.

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- UNIT 1: Welcome Back!
- UNIT 2: Rules of Exponents
- UNIT 3: How Big? How Small?
- UNIT 4: So What's Rational About That?
- UNIT 5: The Fabulous World of Functions
- UNIT 6: Shapes On A Plane
- UNIT 7: What's at the Root?
- UNIT 8: Playing Around with Pythagoras
- UNIT 9: Quantum of Solids
- UNIT 10: It's All About the Rates
- UNIT 11: Oni's Equation Adventure

- LESSON 1: Introduction to Scientific Notation
- LESSON 2: Expressing Numbers in Scientific Notation
- LESSON 3: Practice with Expressing Numbers in Scientific Notation
- LESSON 4: Adding and Subtracting with Scientific Notation Part I
- LESSON 5: Adding and Subtracting with Scientific Notation Part II
- LESSON 6: Multiplying with Scientific Notation
- LESSON 7: Dividing Numbers in Scientific Notation
- LESSON 8: Problem Solving with Scientific Notation Part I
- LESSON 9: Problem Solving with Scientific Notation Part II
- LESSON 10: Problem Solving with Scientific Notation Part III
- LESSON 11: Formative Assessment: Scientific Notation
- LESSON 12: Scientific Notation Quiz Review BINGO