Eric Smith

Basic Types of Numbers

Slide Duration:Table of Contents

30m 41s

- Intro0:00
- Objectives0:07
- Basic Types of Numbers0:36
- Natural Numbers1:02
- Whole Numbers1:29
- Integers2:04
- Rational Numbers2:38
- Irrational Numbers5:06
- Imaginary Numbers6:48
- Basic Types of Numbers Cont.8:09
- The Big Picture8:10
- Real vs. Imaginary Numbers8:30
- Rational vs. Irrational Numbers8:48
- Basic Types of Numbers Cont.10:55
- Number Line11:06
- Absolute Value11:44
- Inequalities12:39
- Example 113:16
- Example 217:30
- Example 321:56
- Example 424:27
- Example 527:48

19m 26s

- Intro0:00
- Objectives0:06
- Operations on Numbers0:25
- Addition0:53
- Subtraction1:33
- Multiplication & Division2:19
- Exponents3:24
- Bases4:04
- Square Roots4:59
- Principle Square Roots5:09
- Perfect Squares6:32
- Simplifying and Combining Roots6:52
- Example 18:16
- Example 212:30
- Example 314:02
- Example 416:27

12m 6s

- Intro0:00
- Objectives0:06
- The Order of Operations0:25
- Work Inside Parentheses0:42
- Simplify Exponents0:52
- Multiplication & Division from Left to Right0:57
- Addition & Subtraction from Left to Right1:11
- Remember PEMDAS1:21
- The Order of Operations Cont.2:27
- Example2:43
- Example 13:55
- Example 25:36
- Example 37:35
- Example 48:56

18m 52s

- Intro0:00
- Objectives0:07
- The Properties of Real Numbers0:23
- Commutative Property of Addition and Multiplication0:44
- Associative Property of Addition and Multiplication1:50
- Distributive Property of Multiplication Over Addition3:20
- Division Property of Zero4:46
- Division Property of One5:23
- Multiplication Property of Zero5:56
- Multiplication Property of One6:17
- Addition Property of Zero6:29
- Why Are These Properties Important?6:53
- Example 19:16
- Example 213:04
- Example 314:30
- Example 416:57

12m 22s

- Intro0:00
- Objectives0:09
- The Vocabulary of Linear Equations0:44
- Variables0:52
- Terms1:09
- Coefficients1:40
- Like Terms2:18
- Examples of Like Terms2:37
- Expressions4:01
- Equations4:26
- Linear Equations5:04
- Solutions5:55
- Example 16:16
- Example 27:16
- Example 38:45
- Example 410:20

28m 52s

- Intro0:00
- Objectives0:08
- Solving Linear Equations in One Variable0:34
- Conditional Cases0:51
- Identity Cases1:09
- Contradiction Cases1:30
- Solving Linear Equations in One Variable Cont.2:00
- Addition Property of Equality2:10
- Multiplication Property of Equality2:43
- Steps to Solve Linear Equations3:14
- Example 14:22
- Example 28:21
- Example 312:32
- Example 414:19
- Example 517:25
- Example 622:17

12m 2s

- Intro0:00
- Objectives0:06
- Solving Formulas0:18
- Formulas0:26
- Use the Same Properties as Solving Linear Equations1:36
- Addition Property of Equality1:55
- Multiplication Property of Equality1:58
- Steps to Solve Formulas2:43
- Example 13:56
- Example 26:09
- Example 38:39

28m 41s

- Intro0:00
- Objectives0:10
- Applications of Linear Equations0:43
- The Six-Step Method to Solving Word Problems0:55
- Common Terms3:12
- Example 15:03
- Example 29:40
- Example 313:48
- Example 417:58
- Example 523:28

24m 26s

- Intro0:00
- Objectives0:21
- Motion and Mixtures0:46
- Motion Problems: Distance, Rate, and Time1:06
- Mixture Problems: Amount, Percent, and Total1:27
- The Table Method1:58
- The Beaker Method3:38
- Example 15:05
- Example 29:44
- Example 314:20
- Example 419:13

22m 55s

- Intro0:00
- Objectives0:11
- The Rectangular Coordinate System0:39
- The Cartesian Coordinate System0:40
- X-Axis0:54
- Y-Axis1:04
- Origin1:11
- Quadrants1:26
- Ordered Pairs2:10
- Example 12:55
- The Rectangular Coordinate System Cont.6:09
- X-Intercept6:45
- Y-Intercept6:55
- Relation of X-Values and Y-Values7:30
- Example 211:03
- Example 312:13
- Example 414:10
- Example 518:38

27m 58s

- Intro0:00
- Objectives0:11
- Slope and Graphing0:48
- Standard Form1:14
- Example 12:24
- Slope and Graphing Cont.4:58
- Slope, m5:07
- Slope is Rise over Run6:11
- Don't Mix Up the Coordinates8:20
- Example 29:39
- Slope and Graphing Cont.14:26
- Slope-Intercept Form14:34
- Example 316:55
- Example 418:00
- Slope and Graphing Cont.19:00
- Rewriting an Equation in Slope-Intercept Form19:39
- Rewriting an Equation in Standard Form20:09
- Slopes of Vertical & Horizontal Lines20:56
- Example 522:49
- Example 624:09
- Example 725:59
- Example 826:57

20m 36s

- Intro0:00
- Objectives0:13
- Linear Equations in Two Variables0:36
- Point-Slope Form1:07
- Substitute in the Point and the Slope2:21
- Parallel Lines: Two Lines with the Same Slope4:05
- Perpendicular Lines: Slopes are Negative Reciprocals of Each Other4:39
- Perpendicular Lines: Product of Slopes is -15:24
- Example 16:02
- Example 27:50
- Example 310:49
- Example 413:26
- Example 515:30
- Example 617:43

21m 24s

- Intro0:00
- Objectives0:07
- Introduction to Functions0:58
- Relations1:03
- Functions1:37
- Independent Variables2:00
- Dependent Variables2:11
- Function Notation2:21
- Function3:43
- Input and Output3:53
- Introduction to Functions Cont.4:45
- Domain4:46
- Range4:55
- Functions Represented by a Diagram6:41
- Natural Domain9:11
- Evaluating Functions12:02
- Example 113:13
- Example 215:03
- Example 316:18
- Example 419:54

16m 12s

- Intro0:00
- Objectives0:09
- Graphing Functions0:54
- Using Slope-Intercept Form1:56
- Vertical Line Test2:58
- Determining the Domain4:20
- Determining the Range5:43
- Example 16:06
- Example 27:18
- Example 38:31
- Example 411:04

25m 54s

- Intro0:00
- Objectives0:13
- Systems of Linear Equations0:46
- System of Equations0:51
- System of Linear Equations1:15
- Solutions1:35
- Points as Solutions1:53
- Finding Solutions Graphically5:13
- Example 16:37
- Example 212:07
- Systems of Linear Equations Cont.17:01
- One Solution, No Solution, or Infinite Solutions17:10
- Example 318:31
- Example 422:37

20m 1s

- Intro0:00
- Objectives0:09
- Solving a System Using Substitution0:32
- Substitution Method1:24
- Substitution Example2:35
- One Solution, No Solution, or Infinite Solutions7:50
- Example 19:45
- Example 212:48
- Example 315:01
- Example 417:30

19m 40s

- Intro0:00
- Objectives0:09
- Solving a System Using Elimination0:27
- Elimination Method0:42
- Elimination Example2:01
- One Solution, No Solution, or Infinite Solutions7:05
- Example 18:53
- Example 211:46
- Example 315:37
- Example 417:45

24m 34s

- Intro0:00
- Objectives0:12
- Applications of Systems of Equations0:30
- Word Problems1:31
- Example 12:17
- Example 27:55
- Example 313:07
- Example 417:15

17m 13s

- Intro0:00
- Objectives0:08
- Solving Linear Inequalities in One Variable0:37
- Inequality Expressions0:46
- Linear Inequality Solution Notations3:40
- Inequalities3:51
- Interval Notation4:04
- Number Lines4:43
- Set Builder Notation5:24
- Use Same Techniques as Solving Equations6:59
- 'Flip' the Sign when Multiplying or Dividing by a Negative Number7:12
- 'Flip' Example7:50
- Example 18:54
- Example 211:40
- Example 314:01

16m 13s

- Intro0:00
- Objectives0:07
- Compound Inequalities0:37
- 'And' vs. 'Or'0:44
- 'And'3:24
- 'Or'3:35
- 'And' Symbol, or Intersection3:51
- 'Or' Symbol, or Union4:13
- Inequalities4:41
- Example 16:22
- Example 29:30
- Example 311:27
- Example 413:49

14m 12s

- Intro0:00
- Objectives0:08
- Solve Equations with Absolute Values0:18
- Solve Equations with Absolute Values Cont.1:11
- Steps to Solving Equations with Absolute Values2:21
- Example 13:23
- Example 26:34
- Example 310:12

17m 7s

- Intro0:00
- Objectives0:07
- Inequalities with Absolute Values0:23
- Recall…2:08
- Example 13:39
- Example 26:06
- Example 38:14
- Example 410:29
- Example 513:29

15m 33s

- Intro0:00
- Objectives0:07
- Graphing Inequalities in Two Variables0:32
- Split Graph into Two Regions1:53
- Graphing Inequalities5:44
- Test Points6:20
- Example 17:11
- Example 210:17
- Example 313:06

21m 13s

- Intro0:00
- Objectives0:08
- Systems of Inequalities0:24
- Test Points1:10
- Steps to Solve Systems of Inequalities1:25
- Example 12:23
- Example 27:28
- Example 312:51

44m 51s

- Intro0:00
- Objectives0:09
- Integer Exponents0:42
- Exponents 'Package' Multiplication1:25
- Example 12:00
- Example 23:13
- Integer Exponents Cont.4:50
- Product Rule for Exponents4:51
- Example 37:16
- Example 410:15
- Integer Exponents Cont.13:13
- Power Rule for Exponents13:14
- Power Rule with Multiplication and Division15:33
- Example 516:18
- Integer Exponents Cont.20:04
- Example 620:41
- Integer Exponents Cont.25:52
- Zero Exponent Rule25:53
- Quotient Rule28:24
- Negative Exponents30:14
- Negative Exponent Rule32:27
- Example 734:05
- Example 836:15
- Example 939:33
- Example 1043:16

18m 33s

- Intro0:00
- Objectives0:07
- Adding and Subtracting Polynomials0:25
- Terms0:33
- Coefficients0:51
- Leading Coefficients1:13
- Like Terms1:29
- Polynomials2:21
- Monomials, Binomials, Trinomials, and Polynomials5:41
- Degrees7:00
- Evaluating Polynomials8:12
- Adding and Subtracting Polynomials Cont.9:25
- Example 111:48
- Example 213:00
- Example 314:41
- Example 416:15

25m 7s

- Intro0:00
- Objectives0:06
- Multiplying Polynomials0:41
- Distributive Property1:00
- Example 12:49
- Multiplying Polynomials Cont.8:22
- Organize Terms with a Table8:23
- Example 213:40
- Multiplying Polynomials Cont.16:33
- Multiplying Binomials with FOIL16:48
- Example 318:49
- Example 420:04
- Example 521:42

44m 56s

- Intro0:00
- Objectives0:07
- Dividing Polynomials0:29
- Dividing Polynomials by Monomials2:10
- Dividing Polynomials by Polynomials2:59
- Dividing Numbers4:09
- Dividing Polynomials Example8:39
- Example 112:35
- Example 214:40
- Example 316:45
- Example 421:13
- Example 524:33
- Example 629:02
- Dividing Polynomials with Synthetic Division Method33:36
- Example 738:43
- Example 842:24

28m 27s

- Intro0:00
- Objectives0:09
- Greatest Common Factor0:31
- Factoring0:40
- Greatest Common Factor (GCF)1:48
- GCF for Polynomials3:28
- Factoring Polynomials6:45
- Prime8:21
- Example 19:14
- Factor by Grouping14:30
- Steps to Factor by Grouping17:03
- Example 217:43
- Example 319:20
- Example 420:41
- Example 522:29
- Example 626:11

21m 44s

- Intro0:00
- Objectives0:06
- Factoring Trinomials0:25
- Recall FOIL0:26
- Factor a Trinomial by Reversing FOIL1:52
- Tips when Using Reverse FOIL5:31
- Example 17:04
- Example 29:09
- Example 311:15
- Example 413:41
- Factoring Trinomials Cont.15:50
- Example 518:42

30m 9s

- Intro0:00
- Objectives0:08
- Factoring Trinomials Using the AC Method0:27
- Factoring when Leading Term has Coefficient Other Than 11:07
- Reversing FOIL1:18
- Example 11:46
- Example 24:28
- Factoring Trinomials Using the AC Method Cont.7:45
- The AC Method8:03
- Steps to Using the AC Method8:19
- Tips on Using the AC Method9:29
- Example 310:45
- Example 416:50
- Example 521:08
- Example 624:58

30m 14s

- Intro0:00
- Objectives0:07
- Special Factoring Techniques0:26
- Difference of Squares1:46
- Perfect Square Trinomials2:38
- No Sum of Squares3:32
- Special Factoring Techniques Cont.4:03
- Difference of Squares Example4:04
- Perfect Square Trinomials Example5:29
- Example 17:31
- Example 29:59
- Example 311:47
- Example 415:09
- Special Factoring Techniques Cont.19:07
- Sum of Cubes and Difference of Cubes19:08
- Example 523:13
- Example 626:12

23m 38s

- Intro0:00
- Objectives0:08
- Solving Quadratic Equations by Factoring0:19
- Quadratic Equations0:20
- Zero Factor Property1:39
- Zero Factor Property Example2:34
- Example 14:00
- Solving Quadratic Equations by Factoring Cont.5:54
- Example 27:28
- Example 311:09
- Example 414:22
- Solving Quadratic Equations by Factoring Cont.18:17
- Higher Degree Polynomial Equations18:18
- Example 520:22

29m 27s

- Intro0:00
- Objectives0:12
- Solving Quadratic Equations0:29
- Linear Factors0:38
- Not All Quadratics Factor Easily1:22
- Principle of Square Roots3:36
- Completing the Square4:50
- Steps for Using Completing the Square5:15
- Completing the Square Works on All Quadratic Equations6:41
- The Quadratic Formula7:28
- Discriminants8:25
- Solving Quadratic Equations - Summary10:11
- Example 111:54
- Example 213:03
- Example 316:30
- Example 421:29
- Example 525:07

16m 47s

- Intro0:00
- Objectives0:08
- Equations in Quadratic Form0:24
- Using a Substitution0:53
- U-Substitution1:26
- Example 12:07
- Example 25:36
- Example 38:31
- Example 411:14

29m 4s

- Intro0:00
- Objectives0:09
- Quadratic Formulas and Applications0:35
- Squared Variable0:40
- Principle of Square Roots0:51
- Example 11:09
- Example 22:04
- Quadratic Formulas and Applications Cont.3:34
- Example 34:42
- Example 413:33
- Example 520:50

26m 53s

- Intro0:00
- Objectives0:06
- Graphs of Quadratics0:39
- Axis of Symmetry1:46
- Vertex2:12
- Transformations2:57
- Graphing in Quadratic Standard Form3:23
- Example 15:06
- Example 26:02
- Example 39:07
- Graphs of Quadratics Cont.11:26
- Completing the Square12:02
- Vertex Shortcut12:16
- Example 413:49
- Example 517:25
- Example 620:07
- Example 723:43

21m 42s

- Intro0:00
- Objectives0:07
- Polynomial Inequalities0:30
- Solving Polynomial Inequalities1:20
- Example 12:45
- Polynomial Inequalities Cont.5:12
- Larger Polynomials5:13
- Positive or Negative Intervals7:16
- Example 29:01
- Example 313:53

26m 41s

- Intro0:00
- Objectives0:09
- Multiply and Divide Rational Expressions0:44
- Rational Numbers0:55
- Dividing by Zero1:45
- Canceling Extra Factors2:43
- Negative Signs in Fractions4:52
- Multiplying Fractions6:26
- Dividing Fractions7:17
- Example 18:04
- Example 214:01
- Example 316:23
- Example 418:56
- Example 522:43

20m 24s

- Intro0:00
- Objectives0:07
- Adding and Subtracting Rational Expressions0:41
- Common Denominators0:52
- Common Denominator Examples1:14
- Steps to Adding and Subtracting Rational Expressions2:39
- Example 13:34
- Example 25:27
- Adding and Subtracting Rational Expressions Cont.6:57
- Least Common Denominators6:58
- Transitioning from Fractions to Rational Expressions9:08
- Identifying Least Common Denominators for Rational Expressions9:56
- Subtracting vs. Adding10:41
- Example 311:19
- Example 412:36
- Example 515:08
- Example 616:46

18m 23s

- Intro0:00
- Objectives0:09
- Complex Fractions0:37
- Dividing to Simplify Complex Fractions1:10
- Example 12:03
- Example 23:58
- Complex Fractions Cont.9:15
- Using the Least Common Denominator to Simplify Complex Fractions9:16
- Both Methods Lead to the Same Answer10:07
- Example 310:42
- Example 414:28

16m 24s

- Intro0:00
- Objectives0:07
- Solving Rational Equations0:23
- Isolate the Specified Variable1:23
- Example 11:58
- Example 25:00
- Example 38:23
- Example 413:25

18m 54s

- Intro0:00
- Objectives0:06
- Rational Inequalities0:18
- Testing Intervals for Rational Inequalities0:38
- Steps to Solving Rational Inequalities1:05
- Tips to Solving Rational Inequalities2:27
- Example 13:33
- Example 212:21

20m 20s

- Intro0:00
- Objectives0:07
- Applications of Rational Expressions0:27
- Work Problems1:05
- Example 12:58
- Example 26:45
- Example 313:17
- Example 416:37

27m 4s

- Intro0:00
- Objectives0:10
- Variation and Proportion0:34
- Variation0:35
- Inverse Variation1:01
- Direct Variation1:10
- Setting Up Proportions1:31
- Example 12:27
- Example 25:36
- Variation and Proportion Cont.8:29
- Inverse Variation8:30
- Example 39:20
- Variation and Proportion Cont.12:41
- Constant of Proportionality12:42
- Example 413:59
- Variation and Proportion Cont.16:17
- Varies Directly as the nth Power16:30
- Varies Inversely as the nth Power16:53
- Varies Jointly17:09
- Combining Variation Models17:36
- Example 519:09
- Example 622:10

14m 32s

- Intro0:00
- Objectives0:07
- Rational Exponents0:32
- Power on Top, Root on Bottom1:05
- Example 11:37
- Rational Exponents Cont.4:04
- Using Rules from Exponents for Radicals as Exponents4:05
- Combining Terms Under a Single Root4:50
- Example 25:21
- Example 37:39
- Example 411:23
- Example 513:14

15m 12s

- Intro0:00
- Objectives0:07
- Simplify Rational Exponents0:25
- Product Rule for Radicals0:26
- Product Rule to Simplify Square Roots1:11
- Quotient Rule for Radicals1:42
- Applications of Product and Quotient Rules2:17
- Higher Roots2:48
- Example 13:39
- Example 26:35
- Example 38:41
- Example 411:09

17m 22s

- Intro0:00
- Objectives0:07
- Adding and Subtracting Radicals0:33
- Like Terms1:29
- Bases and Exponents May be Different2:02
- Bases and Powers Must be Same when Adding and Subtracting2:42
- Add Radicals' Coefficients3:55
- Example 14:47
- Example 26:00
- Adding and Subtracting Radicals Cont.7:10
- Simplify the Bases to Look the Same7:25
- Example 38:23
- Example 411:45
- Example 515:10

19m 24s

- Intro0:00
- Objectives0:08
- Multiply and Divide Radicals0:25
- Rules for Working With Radicals0:26
- Using FOIL for Radicals1:11
- Don’t Distribute Powers2:54
- Dividing Radical Expressions4:25
- Rationalizing Denominators6:40
- Example 17:22
- Example 28:32
- Multiply and Divide Radicals Cont.9:23
- Rationalizing Denominators with Higher Roots9:25
- Example 310:51
- Example 411:53
- Multiply and Divide Radicals Cont.13:13
- Rationalizing Denominators with Conjugates13:14
- Example 515:52
- Example 617:25

15m 5s

- Intro0:00
- Objectives0:07
- Solving Radical Equations0:17
- Radical Equations0:18
- Isolate the Roots and Raise to Power0:34
- Example 11:13
- Example 23:09
- Solving Radical Equations Cont.7:04
- Solving Radical Equations with More than One Radical7:05
- Example 37:54
- Example 413:07

29m 16s

- Intro0:00
- Objectives0:06
- Complex Numbers1:05
- Imaginary Numbers1:08
- Complex Numbers2:27
- Real Parts2:48
- Imaginary Parts2:51
- Commutative, Associative, and Distributive Properties3:35
- Adding and Subtracting Complex Numbers4:04
- Multiplying Complex Numbers6:16
- Dividing Complex Numbers8:59
- Complex Conjugate9:07
- Simplifying Powers of i14:34
- Shortcut for Simplifying Powers of i18:33
- Example 121:14
- Example 222:15
- Example 323:38
- Example 426:33

For more information, please see full course syllabus of Algebra 1

# Algebra 1 Basic Types of Numbers

Section 1: Properties of Real Numbers: Lecture 1 | 30:41 min

In this first Algebra lesson we are going to take a look at basic types of numbers and how to represent numbers with a number line. Each type is explained in detail in the video, and you'll see how a particular number may belong to more than one type. For example, the number 2 is a natural number, as well as an integer, a rational, and a real number. You can also plot numbers onto a number line. In a number line the smaller numbers are written on the left of the larger numbers. Remember that the absolute value of a number is its distance from zero on a number line.

0 answers

Post by Hong Yang on June 9 at 04:09:33 PM

by the way how do you determine when you use addition principal and subtraction PRINCIPAL.

2 answers

Last reply by: Professor Eric Smith

Wed Mar 18, 2020 11:57 AM

Post by Maggie Liu on March 16 at 05:54:03 PM

The 5 in example 5 for the slides is a V

2 answers

Last reply by: Sean Zhang

Thu Jun 20, 2019 5:28 PM

Post by Sean Zhang on June 20, 2019

Just a question about the 12 in example 2, shouldnt't it also be integer whole and natural?

5 answers

Last reply by: ???

Wed Mar 27, 2019 11:11 AM

Post by Ana Chu on July 31, 2017

Hello Eric! I have a question from this course.

When you say Pi can't be a written as a fraction, I thought you could have wrote Pi over 1 (?/1) which will be 3.141592653. You also can put Pi over Pi (?/?) and get a final number of 1. Can you please help me understand if Pi can be a rational number.

Thank you!

1 answer

Last reply by: Professor Eric Smith

Mon Jul 10, 2017 4:49 PM

Post by Mohamed E Sowaileh on July 10, 2017

Hello Dr. Eric Smith,

I hope you are very well.

I am a student who is extremely weak in math. In order to be very strong in math, specially for engineering field, could you provide me with sequential order of mathematical topics and textbooks. With what should I begin so that I can master big topics like calculus, statistics, probability ... etc.

Your guidance is precious to me.

Thank you so much.

2 answers

Last reply by: Rowen Ainslie

Tue Jun 6, 2017 10:03 AM

Post by Zacc A on March 30, 2017

How is the ?{100} irrational? Isn't it rational?

1 answer

Last reply by: Professor Eric Smith

Fri Aug 26, 2016 7:01 PM

Post by Summer Breeze on June 22, 2016

Hello Eric, you said in one of the slides that imaginary numbers are numbers with i and constant like 'pie', but in this exercise, you categorize 'pie' as a real number. Can you please tell me which numbers fall under immaginary and where constants like 'pie' and 'e' go? thanks!

1 answer

Last reply by: Professor Eric Smith

Fri Aug 26, 2016 7:02 PM

Post by Summer Breeze on June 21, 2016

Hello Eric, Can I consider all numbers to be real numbers except for imiginary numbers or the square roo of a negative number?

1 answer

Last reply by: Professor Eric Smith

Fri Aug 26, 2016 7:03 PM

Post by Summer Breeze on June 21, 2016

Hello Eric, at the highest level, we have real and imaginary numbers; in your diagram, you have irrational under Real umbrella. Should irrational numbers fall under the imaginary category?

1 answer

Last reply by: Professor Eric Smith

Fri Aug 26, 2016 7:04 PM

Post by Summer Breeze on June 21, 2016

Hello Eric! Can you please share the easiest way to convert a repeated decimal number like 0.161616 into a fraction?

3 answers

Last reply by: Professor Eric Smith

Sat Mar 2, 2019 3:57 PM

Post by Summer Breeze on June 21, 2016

Hello! In your explanation, you mentionned that rational numbers are those that can be writen as a fraction and are terminating numbers, but 3/17 when converted to fraction does not terminate, why is rational?

2 answers

Last reply by: francisco marrero

Mon Aug 24, 2015 6:24 PM

Post by francisco marrero on July 22, 2015

Do you recommend a book to practice more equations?

1 answer

Last reply by: Professor Eric Smith

Tue Dec 30, 2014 3:39 PM

Post by Brad Cure on December 28, 2014

I like your diagram of "Basic Number Types" It provides a nice simple global view of numbers that is easy to understand.

3 answers

Last reply by: Professor Eric Smith

Wed Mar 18, 2015 10:25 PM

Post by Mohammed Jaweed on December 25, 2014

How do you plot a fraction on a number line.

3 answers

Last reply by: Douglas Williams

Tue Jan 14, 2014 8:58 AM

Post by Douglas Williams on January 7, 2014

Dear Mr. Smith, I just joined educator.com and have been studying a lot, I took a break and I was looking at some watches, the first watch I saw was water resistant to 30 meters, so I wanted to convert that to feet. so I found out that 1 m = 3.280 ft. So I got to wondering, what is the .280 ft. in inches? I know that .280 = (280/1000) but who ever heard of a thousandths of an inch? So I like painted myself into a corner, and I have been trying to just logically think it through, I drew a picture of a two number lines, etc, I just can not yet figure out how to get a precise conversion. Logically I know that 30 meters * 3.280 ft = water depth in ft. but how do I convert the hundredths of an inch to something more like a US fraction? Google says the answer is 3 and 3/8 inches what is the correlation between (280/1000) and (27/8) Do I factor? I can not grasp the concept, totally lost ugh. -Doug

1 answer

Last reply by: Professor Eric Smith

Mon Dec 2, 2013 8:47 PM

Post by Juan Manuel Gallardo on November 29, 2013

this course can help me for college admission tests?

1 answer

Last reply by: Professor Eric Smith

Tue Sep 3, 2013 6:38 PM

Post by Jonathan Traynor on August 31, 2013

You are an outstanding teacher. Thanks for all your help!!!!!

1 answer

Last reply by: Professor Eric Smith

Mon Aug 19, 2013 1:44 PM

Post by Theresa Sharp on August 19, 2013

How do I write a decimal with a repeating block of numbers as a fraction? what is the formula for that?