Standard Form.

Slides:

Advertisements

Similar presentations

Scientific Notation.

Advertisements

Objective: To convert numbers into standard index form

Please turn in your Home-learning, get your notebook and Springboard book, and begin the bell-ringer! Test on Activity 6, 7 and 8 Wednesday (A day) and.

Astronomical Numbers SNC1D. Powers of Ten Numbers in astronomy are often much larger than we are used to dealing with in daily life. We often express.

Objective The student will be able to: express numbers in scientific and decimal notation. Mrs. M. Williams -8 th Mathematics.

Multiplying and Dividing in Scientific Notation. Multiplying Numbers in Scientific Notation Multiply the decimal numbers together. Add the exponents to.

Scientific Notation Why Do We Need It?.

PERFORMING CALCULATIONS IN SCIENTIFIC NOTATION

Scientific Notation.

Scientific Notation Recognize and use scientific notation.

Introduction to Significant Figures &

Scientific Notation.

POWERPOINT THE SECOND In which you will learn about: Scientific notation +/-/x/÷ with sig figs Rounding.

Scientific Notation. What is scientific Notation? Scientific notation is a way of expressing really big numbers or really small numbers. It is most often.

Scientific Notation.

Shorthand notation for writing both very large and very small numbers

Accuracy, Precision, Signficant Digits and Scientific Notation.

Scientific Notation. What is scientific notation? Scientific notation is a way of expressing really big numbers or really small numbers. It is most often.

Scientific Notation A method for re-writing really, really big and really, really small numbers as a power of ten.

 Scientific notation is a way of expressing really big numbers or really small numbers.  It is most often used in “scientific” calculations where the.

Mathematical Operations Using Numbers in Scientific Notation.

Scientific Notation Read through this lesson on scientific notation and then complete the handout. Keep this power point presentation on your laptop and.

Objective 1.To write very large or very small numbers in standard form, in scientific notation, and vice versa. To compare and order numbers in scientific.

Scientific Notation. Scientific Notation At the conclusion of our time together, you should be able to: 1.Define scientific notation 2.Convert numbers.

Watch “Powers of 10” csu/powersof10/

SN Multiplication Without a Calculator

Scientific and standard notation, conversion

Objective The student will be able to: express numbers in scientific and decimal notation. Designed by Skip Tyler, Varina High School.

Scientific notation is a way of expressing really big numbers or really small numbers. Scientific notation is a way of expressing really big numbers or.

Aim: How can we express a large or small number?

Ch 8: Exponents E) Scientific Notation

Positive and Negative numbers. Negative numbers A positive or negative whole number, including zero, is called an integer. For example, –3 is an integer.

Chapter 5 Section 3. Objectives 1 Copyright © 2012, 2008, 2004 Pearson Education, Inc. An Application of Exponents: Scientific Notation Express numbers.

Scientific Notation Algebra Seminar. Objectives ► Write numbers in standard and scientific notation. ► Perform calculations with numbers in scientific.

Aim: How to write in Scientific Notation DO NOW: 1. WHAT DOES 10 5 MEAN? 2. WHAT IS THE VALUE OF USING YOUR CALCULATOR, CALCULATE 4.5 X 10 6.

SCIENTIFIC NOTATION. Convert to scientific notation       Convert to standard notation  1.92 X 10 3 

BIG NUMBERS and SMALL NUMBERS (Scientific Notation)

UNIT 1: TOOLS OF THE TRADE Math Skills Math Skills.

7 jumps right 12 jumps left Objective - To solve problems involving scientific notation Scientific Notation- used to write very large or very small numbers.

Scientific Notation A short-hand way of writing large numbers without writing all of the zeros. Scientific Notation Video.

Objective The student will be able to: express numbers in scientific and decimal notation. Designed by Skip Tyler, Varina High School.

Transparency 1 Click the mouse button or press the Space Bar to display the answers.

Scientific Notation What is scientific Notation? Scientific notation is a way of expressing really big numbers or really small numbers. It.

Algebra Section 8 Day 2: Scientific Notation Algebra: S8 Day 21.

Section 1.2. Why use it?  Some numbers are too big or too small to write using regular form (also called standard notation)  Using Scientific Notation.

Scientific Notation. What is Scientific Notation? Scientific notation is a way of writing extremely large or small measurements. The number is written.

 Scientific notation is simply a method for expressing, and working with, very large or very small numbers. It is a short hand method for writing numbers,

Scientific Notation Notes Physical Science (Freshman Physics)

What are big numbers? IIIImagine the # 1. It represents one object IIIIncrease this by one zero (power of 10) to #10 It represents ten of those.

Scientific Notation. Can be also called standard form or exponential notation Can be also called standard form or exponential notation Used to write numbers.

Multiplying Decimals.

Scientific Notation.

Scientific Notation and Significant Figures

Multiplying and Dividing in Scientific Notation

Scientific Notation.

Objective The student will be able to:

Objective The student will be able to:

Objective - To solve problems involving scientific notation

Multiplying and Dividing in Scientific Notation

Notes: Scientific Notation

Scientific Notation.

Multiplying Decimals.

Scientific Notation.

Scientific Notation.

Scientific Notation.

Objective The student will be able to:

Watch “Powers of 10”

5.1 - Scientific Notation & Units

Multiplying and Dividing in Scientific Notation

Presentation transcript:

Standard Form

Revision Powers: 2 is multiplied by itself 3 times On calculator: Try these: 65 54 36 25 94 104 Answers: 10 000 7776 625 729 32 6561

Powers of 10 Powers of 10 are easy e.g.103 = 10 x 10 x 10 =1000 3 zeros Look at these sequences Divide by 10 From this we see that

Working with big numbers Scientists often have to work with big numbers. Example: The distance the earth travels in one orbit is 558 000 000 miles. We can express this number in a more concise form as follows. 558 000 000 = 5.58 x 100 000 000 = 5.58 x 108 5.58 x 108 is said to be in Standard Form or Scientific Notation 558 000 000 is said to be in Normal Form

Look at this number which is in Standard Form 6.3 x 105 the power is a positive or negative whole number exactly one digit before the point 6.3 x 105 = 6.3 x 10 x 10 x 10 x 10 x 10 = 630 000 watch this Standard form Ordinary Number x 105 5 jumps 6.3 63. 1 630. 2 6300. 3 63000. 4 630000. 5

Example: Write 2.45 x 104 as an ordinary number. Method: Write the question List the digits without the point 4 jumps from position of “old” point Write the answer Add zeros as required 2 4 5 2 1 3 4 Now try these: Write as ordinary numbers: 1.47 x 102 9.08 x 106 1.3 x 100 4 x 103 4.88 x 101 147 9080000 1.3 4000 48.8

Ordinary Number Standard form watch this 630 000 = 6.3 x 100 000 630000. 63000. 6300. 630. 63. 6.3 1 2 4 5 3 x 105 5 jumps Therefore 630 000 = 6.3 x 105

Positive power since large number Example: Write 2706 in standard form. Method: Write the number Insert “new” decimal point Count jumps to position of “old” decimal point Positive power since large number Make the number “look” like standard form Put in a decimal point to make the number “look” like a number between 1 and 10. 2 7 0 6 3 1 2 = 2 7 0 6 x 10 3 Now try these: Write in standard form: 34560 1023.6 12.8 4.6 230000 3.456 x 104 1.0236 x 103 1.28 x 101 4.6 x 100 2.3 x 105

Numbers less than 1 Standard form Ordinary Number Consider the number 2.03 x 10-3 exactly one digit before the point the power is a positive or negative whole number This number is in standard form but is different from previous examples. Look again at powers of 10 Notice the power is negative 2.03 x 10-3 = 2.03 x 0.001 = 0.00203 watch this Standard form Ordinary Number x 10-3 3 jumps 2.03 x 10-3 .203 .0203 .00203 = 0.00203 1 2 3

Example: Write 1.07 x 10-4 as an ordinary number. Write the question List the digits without the point 4 jumps from position of “old” point Write the answer Method: Add zeros as required Note: When the power is negative the ordinary number is always less than 1. That means the answer starts with 0.----- 2 3 1 4 1 0 7 Now try these: Write as ordinary numbers: 1.47 x 10-2 9.08 x 10-5 1.3 x 10-1 4 x 10-3 4.081 x 10-4 0.0147 0.0000908 0.13 0.004 0.0004081

Ordinary Number Standard form watch this 0.00631 = 6.31 x 0.001 0.0631 0.631 6.31 1 2 3 x 10-3 3 jumps Therefore 630 000 = 6.31 x 10-3

Negative power since tiny number Example: Write 0.0027 in standard form. Method: Write the number Insert “new” decimal point Count jumps to position of “old” decimal point Negative power since tiny number Put in a decimal point to make the number “look” like a number between 1 and 10. 0 0 0 2 7 3 1 2 Make the number “look” like standard form 3 = 2 7 x 10 - Now try these: Write in standard form: 0.3456 0.00102 0.0128 0.000046 0.0000000023 3.456 x 10-1 1.02 x 10-3 1.28 x 10-2 4.6 x 10-5 2.3 x 10-9

Standard Form on the Calculator We use EXP button as shown on the calculator to enter numbers already in standard form. Examples: 2.6 x 108 2 6 EXP 8 = 260 000 000 check this is correct 3.5 x 1012 3 5 EXP 1 2 = 3.5 12 Calculator’s way of writing 3.5 x 1012 – does not mean 3.5 to the power 12! Too large to convert

Calculations Giving your Answer in Standard Form calculator display Example 1: (2.6 x 108) x (4.2 x 106) = 1.092 x 1015 1.092 15 calculator display Example 2: (2.484 x 107) (4.6 x 10-4) = 5.4 x 1010 5.4 10 Note: Only enter EXP before power, never x 10 EXP See calculators again For negative powers use the ( - ) key not the key, we are not subtracting. Remember to change number on display to ---- x 10-- Click button to end presentation

( - )

END