SECTION 2-3 Mathematical Modeling. When you draw graphs or pictures of situation or when you write equations that describe a problem, you are creating.

Slides:

Advertisements

Similar presentations

Section 9.1 – Sequences.

Advertisements

Numerical Solutions of Differential Equations Euler’s Method.

Introductory Activity 1:

Geometric Sequences.

GRAPHING GO BACK TO ACTIVITY SLIDE GO TO TEACHER INFORMATION SLIDE 6

SECTION 2-3 Mathematical Modeling – Triangular Numbers HW: Investigate Pascal’s Triangle o Write out the first 8 rows o Identify the linear, rectangular.

Mathematical Induction

“The Handshake Problem” Problem Solving Ch 1. Shake Hands with Everyone Some things to think about: How many handshakes occurred? How did you keep track.

This number is called the common ratio.

Copyright © 2006 Pearson Education, Inc. Publishing as Pearson Addison-Wesley.

1 Situation: Match Stick Stairs By  (Cor) 2 an. 2 A Square Match Stick Unit Suppose a square match stick unit is defined to be a square with one match.

Jacob’s Birthday Party

12-1 Representations of Three-Dimensional Figures

Notes 1.1 – Representing Number Patterns

2.5Formulas and Additional Applications from Geometry

J.R. Leon Chapter 2.3 Discovering Geometry - HGHS Physical models have many of the same features as the original object or activity they represent, but.

Estimate: Review: Find 5/7 of 14. Draw a bar diagram. Divide it into 7 equal sections because the denominator is 7. Determine the number in each.

Representing Proportional Relationships

Formulas 5 5.1Sequences 5.2Introduction to Functions 5.3Simple Algebraic Fractions Chapter Summary Case Study 5.4Formulas and Substitution 5.5Change of.

E8 Students are expected to make generalizations about the diagonal properties of squares and rectangles and apply these properties.

2-3 Geometric Sequences Definitions & Equations

Rev.S08 MAC 1105 Module 4 Quadratic Functions and Equations.

Grade 2 - Unit 1 Lesson 1 I can retell, draw, and solve story problems. I can recognize math as a part of daily life. Lesson 2 I can create story problems.

Language, Values, Ways of Knowing and Connections to Culture: Keys to supporting Aboriginal students in mathematics learning A workshop based on Transforming.

Square/Rectangular Numbers Triangular Numbers HW: 2.3/1-5

INTEGRALS Areas and Distances INTEGRALS In this section, we will learn that: We get the same special type of limit in trying to find the area under.

Math Vocabulary

Integrals  In Chapter 2, we used the tangent and velocity problems to introduce the derivative—the central idea in differential calculus.  In much the.

Activity Set 2.3 PREP PPTX Visual Algebra for Teachers.

Chapter 2 Section 5. Objectives 1 Copyright © 2012, 2008, 2004 Pearson Education, Inc. Formulas and Additional Applications from Geometry Solve a formula.

EXAMPLE 3 Find possible side lengths ALGEBRA

EXAMPLE 3 Find possible side lengths ALGEBRA A triangle has one side of length 12 and another of length 8. Describe the possible lengths of the third side.

ITERATIVE AND RECURSIVE PATTERNS

Formula for Slope Investigate and solve real-world problems that involve the slope of a line Learn how to calculate slopes with slope triangles and the.

Performance Across the Bands. Algebra and Functions Algebra and Functions: Use letters, boxes, or other symbols to stand for any number in simple.

Math 409/409G History of Mathematics

Project #3 -Benchmarks MAD 141 describes, analyzes, and generalizes, relationships, patterns, and functions using words symbols, variables, tables, and.

Investigate and Describe Patterns

SECTION 2-2 Finding the nth Term. You have been looking at different sequences Each time you were asked to describe the next one or two terms. 3, 5, 7,

Pre-Algebra 12-3 Other Sequences Check 12-2 HOMEWORK.

Learn to find terms in an arithmetic sequence.

To explore exponential growth and decay To discover the connection between recursive and exponential forms of geometric sequences.

Section 7.1 The Rectangular Coordinate System and Linear Equations in Two Variables Math in Our World.

Modeling and Equation Solving

A B The points on the coordinate plane below are three vertices of a rectangle. What are the coordinates of the fourth vertex? C.

Patterns and Expressions Lesson 1-1

Chapter 4 Review Solving Inequalities.

Lesson 6.2: Exponential Equations

Common Number Patterns

Graphing Linear Equations

GRAPHING GO BACK TO ACTIVITY SLIDE GO TO TEACHER INFORMATION SLIDE 6

Dilrajkumar 06 X;a.

Graphing Linear Equations

Representations of Three-Dimensional Figures

Draw isometric views of three-dimensional figures.

Geometric sequences.

Number Patterns.

vms x Year 8 Mathematics Equations

Linear sequences A linear sequence is a name for a list of numbers where the next number is found by adding or subtracting a constant number. Here is an.

Representations of Three-Dimensional Figures

Key Words; Term, Expression

Algebraic Reasoning, Graphing, and Connections with Geometry

Today we will Graph Linear Equations

Sequences Example This is a sequence of tile patterns.

Writing Rules for Linear Functions Pages

Finding the nth term, Un Example

Visual Algebra for Teachers

Presentation transcript:

SECTION 2-3 Mathematical Modeling

When you draw graphs or pictures of situation or when you write equations that describe a problem, you are creating a mathematical model. A physical model of a complicated telecommunication network, for example, might not be practical, but you can draw a mathematical model of the network using points and lines.

Party Handshake Each of the 30 people at a party shook hands with everyone else. How many handshakes were there altogether? Act out this problem with members of your group. Collect data for “parties” of one, two, three, and four people, and record your results in a table.

Look for a pattern. Can you generalize from your pattern to find the 30 th term? Acting out a problem is a powerful problem solving strategy that can give you important insight into a solution.

Model the problem by using points to represent people and line segments connecting the points to represent handshakes. Record your results in a table.

Look at your table. What patterns do you see? The pattern of differences is increasing by one: 1, 2, 3, 4, 5, 6, 7, etc. The pattern of differences is not constant as we have seen in other tables. So this pattern is not linear.

Study the picture of the handshakes more closely. Let’s see what Erin and Stephanie say about this pattern.

In the diagram with 5 vertices, how many segments are there from each vertex? So the total number of segments written in factored form is Complete the table below by expressing the total number of segments in factored form.

The larger of the two factors in the numerator represent the number of points. What does the smaller of the two numbers in the numerator represent? Why do we divide by 2? Write a function rule. How many handshakes were there at the party?

The numbers in the pattern in the previous investigation are called triangular numbers because you can arrange them into a triangular pattern of dots.

The triangular numbers appear in numerous geometric situations. The triangular numbers are related to the sequence of rectangular numbers. Rectangular number can be visualized as rectangular arrangement of objects.

In the sequence the width is equal to the term number and the length is one more than the term number. The third term: the rectangle is 3 wide and the length is 3+1 or 4. The fourth term: the rectangle is 4 wide and the length is 4+1 or 5. The nth term: the rectangle is n wide and the length is n+1.

Relating the rectangle and the triangle Here is how the triangular and rectangular numbers are related: The triangular numbers are ½ of the rectangular numbers.

If the nth term for the rectangular numbers is n(n+1) Then the nth term for the triangular numbers is