Math 409/409G History of Mathematics

Slides:

Advertisements

Similar presentations

4.1 Introduction to Matrices

Advertisements

Finding Surface Area Step 1: Flatten the 3-D figure A rectangular prism will flatten to 6 rectangles. Depending on the dimensions of the 3-D figure, you.

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

Whiteboardmaths.com © 2009 All rights reserved

Mathematics Discrete Combinatorics Latin Squares.

© Where quality comes first! PowerPointmaths.com © 2004 all rights reserved.

Solid Figures 7 th Grade Common Core Georgia Performance Standards: TCV.7.G.6 (3) Solve real-world and mathematical problems involving volume of cubes.

CONFIDENTIAL 1 Geometry Representations of Three- Dimensional Figures Geometry Representations of Three- Dimensional Figures.

Investigate and use the formulas for area and perimeter of rectangles

Sums of Consecutive Natural Numbers

Surface Area: Prisms and Pyramids

6.7 Multiplying a Polynomial by a Monomial CORD Math Mrs. Spitz Fall 2006.

Survey of Mathematical Ideas Math 100 Chapter 1 John Rosson Tuesday January 23, 2007.

Perimeters and Areas of Rectangles

Patterning & Algebra Transitioning through grades 7 to 9 Kerri Everhsed I’m thinking of a pattern…

Multiplying Polynomials

§ 3.3 Geometric Problems. Angel, Elementary Algebra, 7ed 2 Solving Geometric Problems Two angles are complementary angles if the sum of their measures.

Chapter 1 The Art of Problem Solving © 2008 Pearson Addison-Wesley.

 2012 Pearson Education, Inc. Slide Chapter 1 The Art of Problem Solving.

Solid Figures 7 th Grade Georgia Standard of Excellence: MGSE7.G.6 Solve real-world and mathematical problems involving area, volume and surface area of.

3-4 Lesson 3-4 Example 1 Use the formula A = ℓ w to solve for ℓ, length. The area of the rectangle is 72 square yards. Its width is 9 yards. What is the.

Algebra Core Review Day 7

A hands on approach to completing the square Completing the Square with Algebra Tiles.

LESSON THIRTY-FIVE: ANOTHER DIMENSION. THREE-DIMENSIONAL FIGURES As you have certainly realized by now, objects in the real world do not exist in a two.

Perimeter of Rectangles

The student will identify and extend geometric and arithmetic sequences.

Quadratic Formula Sam Scholten. Graphing Standard Form Graphing Standard form: Standard form in Quadratic functions is written as: Y = ax 2 +bx+c. The.

Objective: 6.4 Factoring and Solving Polynomial Equations 1 5 Minute Check  Simplify the expression

SURFACE AREA Math 7. The Surface Area of a given solid figure (3-Dimensional shape) is found by adding the areas of each surface of the figure together.

$100 $200 $300 $400 $100 $200 $300 $400 $300 $200 $100 Skip counting in twos Even or Odd numbers Add & tell if even or odd Add & make numbers Counting.

Math 409/409G History of Mathematics Cardano’s Formula.

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.

Factoring to Solve Quadratic Equations ALGEBRA 1 LESSON 10-5 (For help, go to Lessons 2-2 and 9-6.) Solve and check each equation n = 22. – 9 =

Objective: Students will solve quadratic equations by completing the square Perfect Square Numbers: What are they? Give Examples.

4.8 Polynomial Word Problems. a) Define the variable, b) Write the equation, and c) Solve the problem. 1) The sum of a number and its square is 42. Find.

7.1 Area of a Region Between Two Curves. Consider a very thin vertical strip. The length of the strip is: or Since the width of the strip is a very small.

Applying the Distributive Property Lesson Application Problem O A parking structure has 10 levels. There are 3 cards parked on each level. How many.

Multiplying and Factoring Polynomial Expressions

7.2 Areas in the Plane. How can we find the area between these two curves?

Ch. 6.4 Solving Polynomial Equations. Sum and Difference of Cubes.

Patterns in Sequences. Number patterns Sequences of numbers can have interesting patterns. Here we list the most common patterns and how they are made.

Arithmetic Sequences. Arithmetic sequence Before talking about arithmetic sequence, in math, a sequence is a set of numbers that follow a pattern. We.

Surface Area If you remove the surface from a three-dimensional figure and lay it out flat, the pattern you make is called a net. Nets allow you to see.

MFAAA1. Students will generate and interpret equivalent numeric and algebraic expressions.

Matrices. Matrix - a rectangular array of variables or constants in horizontal rows and vertical columns enclosed in brackets. Element - each value in.

6.4: Solving Polynomial Equations. Solving by Graphing 1. 3x 3 – 6x 2 – 9x =0 2. 6x 2 = 48x.

Volume of a Rectangular Prism A rectangular prism is 10cm long, 5 cm wide and 6cm high. 6cm 5cm 10cm The length is 10cm or one row of 10 cubes The width.

Notes Over 6.3 Adding Polynomial Horizontally and Vertically Find the sum. Just combine like terms.

Lesson 91 Warm Up Pg. 474.

Surface Area of Prisms and Cylinders

Consecutive Number Equations

Warm Up Problem of the Day Lesson Presentation Lesson Quizzes.

The Art of Problem Solving

Solid Figures 7th Grade Standard

Lesson 9.1 How do you add and subtract polynomials?

3-D Shapes Lesson 1Solid Geometry Holt Geometry Texas ©2007

Algebra 1 Section 12.5.

7th Grade Georgia Standard of Excellence:

Surface Area of Prisms and Cylinders

Square and Cube Roots.

Factoring to Solve Quadratic Equations

Module 8: Lesson 8.1 Solving By Factoring

6.3 Adding, Subtracting, and Multiplying Polynomials

Algebra Rules!-Part 1.

Surface Area of Prisms and Cylinders

Algebra 1 Section 12.3.

March 8, Math 201 OBJECTIVE: Students will be able to determine the volume of a rectangular prism by counting cubes and developing the formula.

Use elimination to get rid of a1 and solve for d.

Chapter 1 Sequences and Series

Presentation transcript:

Math 409/409G History of Mathematics Sums of Squares and Cubes

In the lesson on figurative numbers you saw how the triangular and square numbers were used to find formulas for sums of counting numbers, even counting numbers, and odd counting numbers.

In this lesson we will use what we have learned about the triangular and square numbers to derive formulas for the sums of squares and cubes. One of these derivations will be geometric and the other will be algebraic.

But first, lets review a bit. The triangular numbers are generated by the iterative relation .

In the lesson on the sum of triangular numbers we derived the formula for the sum of the first n triangular numbers. The square numbers are

To find a formula for the sum of the squares of the first n counting numbers, let’s first consider the sum Use a diagram of the first four square numbers to represent this sum.

Add enough dots to form a rectangular array. Do you see any pattern in the dots we added?

The added dots can be counted using the triangular numbers.

The number of dots in this array is This number is also the product of the (horizontal) length and (vertical) width of the array.

Clearly the length is 10 and the width is 4 Clearly the length is 10 and the width is 4. But we want to generalize our formula for to We need to express that 10 in terms of 4.

But 10 is the forth triangular number. So let’s add another row of dots at the top.

The number of dots in the array is now And the length of the array is t4 and its width is 4 + 1.

This gives And generalizing this gives us

We know that and Plugging these into our last equation gives

And then solving for gives us the formula we were looking for.

Do you see a pattern in the successive values of

Each sum is a perfect square. Do you see a pattern in the numbers that are squared?

They are the triangular numbers.

So in general, And since , we now have a formula for the sum of the cubes of the first n counting numbers. Namely,

Sums of Squares and Cubes This ends the lesson on Sums of Squares and Cubes