Teenagers Used Their Phones 21 Hours Per Week

Wow.  My Algebra 2 with Trigonometry students are actively using their phones (screen is lit and active) an average of 21 hours per week.  Two students used their phones for about 35 hours in just one week.

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We started our data unit last week.  Wow, do I love our data unit!  We start with box plots, then move to histograms and land on standard deviations.  The calculations actually make so much sense, but they can be pretty dry.  I love data analysis, so I wanted to spice it up using an idea I saw from Illustrative Mathematics.  They compared the heights of women’s basketball and field hockey teams at the University of Maryland.  Since we are in NC, I looked up the data for UNC athletes for my classes to compare.  They really enjoyed it so I decided we should analyze their heights and sent them a Google Survey Form.  Wow.  High school kids love nothing more than data about their classmates!  We compared boys to girls, and even class periods against each other.  I had a blast!  The data had become real!  Instead of saying, “Outliers”, we could not say, “our outliers, Brian and Jairus” and the students had a visual point of reference.

This was so much fun I sent them another survey about shoe size, number of shoes, and number of hours they spent watching tv and playing video games in the last week.  We were all ready to dig into this data the next day when we were thrown a curve ball.  A student in my first class of the day showed us all how to find out how many HOURS we had all been on our iPhones in the past week, including listing all of the apps and how much they used each app for.  STOP THE PRESS.  Who the heck cares about shoe sizes when we could see not only how much our friends have been on their phone, but what their top app was!  We instantly started adding up and analyzing the data.  And it was incredible!

We found out that my students use their phone an average of 21 hours per week.  This is SCREEN time, when they are actively engaged in their screens, not apps running in the background.

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After seeing this data per class, I wondered if this much screen time was affecting their grades.  Because of some outliers in some classes, I decided to use median phone usage instead of the mean.  I compared it again the average grades for each class.  With even just a few data points, it appears to be negatively correlated.  Of course talking about the averages does not accurate reflect each student.  To get the actual regression I would need to correlate each students phone hours with their grade average.  Maybe this summer I will have time to look at it.  This quick chart does make me wonder.  As a high school teacher and a parents of teenagers it makes me very concerned.

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We had so much to analyze that we all leaned on Plotly for help.  What an amazing, easy to use, and FREE program.  And what an amazing data unit.

To see the screen time, students must have updated their phones, and they need to have an iPhone.  I am sure that other phones probably provide this as well, but we could not find it.  Go to Setting, Battery, Battery Percentage, Last 7 Days, then hit the little clock icon.  Prepare to be shocked.

 

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Barbie Bungee 2014

What a difference a year makes!  My current students saw all of the Barbie Bungee action from the sidelines as 6th graders last year.  They have been asking me ALL YEAR LONG when we were going to do Barbie Bungee.  This build up was terrific!  Once they knew Barbie Bungee had arrived, they were begging for math class.

After all of the build up, my students took Barbie Bungee very seriously this year.  I make it a competition, and they all wanted to WIN.  They did multiple test drops, they measured carefully, and they drew beautiful graphs.  I did not teach them about the line of best fit, but had them read about it here instead.  I told them whoever had the most accurate data and the best line would win the competition!  They were inspired to learn all about the line of best fit!

Again, I let them adjust their graph after the 90″ test jumps.  This year I was tougher on them, and would not let them test jump again until they fixed their graphs.

The big jump day was so exciting!  Students were yelling and screaming.  One group had a rubber band disagreement.  They calculated the number of rubber bands and wanted to put a half of a rubber band on so their estimate would be perfect.  They wanted to win.  However, we don’t do half rubber bands, so the great rubber band debate ensued. They  only agreed to put the last rubber band on seconds before the jump.  It was a deadly mistake, and their Barbie was the only one to crash.  It was a tragic (read great) learning lesson!

Please enjoy the pictures and the video.  I have so much fun with this project and making the video each year.  It is the best project I have ever done with my students!

My Procedure:

  1. Day 1
    1. Show students Bungee Jump videos on YouTube.
    2. Group students and have them come up with a company name, slogan, goals, and logo for their Barbie Bungee company.  Have them read about the line of best fit for homework.
  2. Day 2
    Give students the handout and let them do the test jumps and the graph.
  3. Day 3
    1. TEST DROP day from 90″.  Students adjust their graphs if needed, and get to add a data point to their graph and adjust their line of best fit if needed.
    2. Re-drop if needed once graph is completed.
    3. Estimate how many rubber bands they will need to drop from 160″ and then attach those rubber bands to Barbie.
  4. Day 4
    1. JUMP DAY – Finish putting rubber bands on Barbie and then JUMP!
    2. Go to Alcula, enter their points, and see the linear regression equation, as well as how many rubber bands they SHOULD have used.  Screaming ensues on this day as well.
  5. Day 5
    Talk about the equation of a line.  Have them speculate what slope means, what the y-intercept means.  Blow their minds!  🙂