## Student Use of Technology in the Classroom I strongly support the use of technology in the classroom, but of course with some caveats.  In the December 2015/January 2016 issue of MATHEMATICS teacher, published by the National Council of Teachers of Mathematics, NCTM, there were several excellent articles about teaching in a world with technology. The authors of the focus article, Corey Webel and Samuel Otten, discussed using the application PhotoMath in the classroom. PhotoMath is a free application from Apple that works by holding a phone or tablet up to a math equation in a textbook. If the equation is not too complicated, PhotoMath will solve the equation and show the steps to solve the equation. Without going into the pros and cons of each option, I will list the three options the authors considered.

Option 3: Consider a Different Division of Labor

Option 3 is about how teachers can treat technology as a tool and how tech tools should be used to engage students in ways that promote mathematical reasoning. If applications like PhotoMath are only used to get the right numerical answer, students are being cheated because they are not learning anything of real value. The authors suggested an activity in which students compare PhotoMath’s solution of a linear equation with an intuitive approach to solve the equation.

The purpose of this post is to share some of my thoughts regarding the use of technology in the modern classroom. I make no claim that computer software technology is the grand elixir for solving or fixing the problems of math education. My intention is to provide some ideas as to how software technology should and can be used to enhance math education. Of course, good visuals and physical manipulatives are just as important as ever. I’m looking forward to hearing what readers of this post think about using technology to enhance math education. Please feel free to provide your feedback by replying to this post, commenting on Facebook, or emailing me at info@mathteachersresource.com.

I fondly remember when electronic calculators became widely available in the 1970’s, and later micro computers in the 1980’s. In those early years, it was generally assumed that students and teachers should learn how to program a computer. Eventually it was realized that students and teachers should learn how to use application programs written by professional programmers. I also mention that in the 1980’s in most high schools, student computer access was limited to one or two computer labs and a relatively small number of computers scattered about in a few classrooms. Projection and computer technology is now an important feature of modern classrooms.

My core belief is that all high school math students should eventually understand and memorize a basic set of math facts and relationships before using software technology. Of course, software technology is a wonderful aid for teaching basic math facts. A high school student who needs a calculator to do problems like 8 + 39 or 7 * 9 has been cheated in his/her prior education. A beginning algebra student who needs a calculator to do a simple problem like 27 – 13 is wasting time and energy, and possibly losing some focus on the original problem. In my opinion, only after students have learned a basic set of math facts and relationships is the use of software technology appropriate. Readers can download my free handouts Basic Math Facts and Slope and Equation of Line Summary to use as resource when teaching some of these basic math facts. Some possible inclusions in the basic set of math facts and skills might be the following items:

• Addition, subtraction, multiplication and division facts
• Squares of the first 20 counting numbers
• Cubes of the first 10 counting numbers
• Powers of 2 such as 25 = 32, 210 = 1,024 and 2-6 = 1/64
• Decimal equivalent of common fractions such as 5/8 = 0.625
• Common Pythagorean triples: 3-4-5, 5-12-13, 7-24-25, 8-15-17, 9-40-41 and 11-60-61
• Properties of real numbers such as the commutative and associative properties
• The order of operation rules
• Common polynomial factoring patterns
• Slope of a line and the different forms of the equation of a linear relationship

After students understand and have memorized a set of basic facts, they should be taught how do a variety of mental math (no paper or calculator) problems. This is important not only to solve common math problems that routinely arise in daily living, but also to develop good estimation skills to see if calculator output is reasonable. Also by learning how to do these types of problems, students will develop a feel for how numbers work. All experienced teachers have stories of students who have given absurd answers that make absolutely no sense. I remember the nationally renowned math educator, Dr. Lola J. May (1923 – 2007), tell her audience, “You can’t teach math to an empty head.” The following examples illustrate some of the types of mental math problems, without hints of course, that I believe most students should eventually be able to handle:

• 25 * 89 * 4 = ? (Sample problem given in a talk by Dr. Lola May)
• 57 + 40 + 13 + 8 = ? (Hint: Consider the fact 13 = 3 + 10)
• 5*\$89.95 = ?  (Hint: Consider 5 times (\$90 – 1 nickel))
• Estimate a 15% tip if the bill is \$63.58 (Hint: What is 10% of \$64.00?)
• What is the average of 81, 82 and 87? (Hint: What is the average of 1, 2 and 7?)
• What is the length of the shortest side of a right triangle if the other sides have lengths of 30 and 34?  (Hint: Consider the Pythagorean triple 8 – 15 – 17)
• Estimate the casualty rate suffered by a regiment if only 47 of 262 survived the battle. (Hint: 50/250 = 1/5 = 20% that were not a casualty)
• 43*37 = ?  ( Hint: Consider (40 + 3)(40 – 3) = 402 – 32 )
• The fraction 17/20 is equivalent to what percent? (Hint: How many nickels make a dollar?)
• Estimate the decimal value of π/12. (Hint: π is close to what integer?)

In order to effectively use technology to teach math in a modern classroom, it’s imperative that all students have ready classroom access to a variety of software tools and physical manipulatives at any time in the classroom. No software tool or physical manipulative alone can teach math, however, teacher guided activities that require student engagement can naturally result positive student benefits. Creating the appropriate teacher guided activity is the hard part. The list below gives the tools that I have used or wished that I had when I taught high school math:

• Graphing calculator such as the TI 84
• Logo programming language (Great tool for teaching kids how to think.)
• Cuisenaire rods (Fantastic physical manipulative for teaching children core math concepts.)
• Easy to use, yet comprehensive graphing program
• Easy to use, yet comprehensive probability/statistics simulation program (I can’t image teaching probability theory without a good probability simulation program.)
• Program to calculate common statistics, confidence intervals, and hypothesis test results