K-12 Outreach

bob brown
Dr. Bob Brown presents material related to computing and STEM to K-12 schools in and around the Atlanta area.

The College of Computing and Software Engineering will continue to support our K-12 partners in four ways:

  1. Content specifically developed for virtual learning
  2. Development of new content for virtual learning
  3. Existing content applicable to virtual learning
  4. Synchronous live presentations using your school's presentation tool.

Content ready for virtual learning is listed immediately below.  For development of new content or to schedule a synchronous live presentation, please contact me directly at Bob.Brown@Kennesaw.edu.

Content Specifically Developed for Virtual Learning

(Grades 5-9)  In this video, we learn about the importance of algorithms and choosing the right algorithm for a given task by playing a "Find the Pok茅mon Game." Along the way we meet Bill and Gina, school kids who play along with us. We discover two different algorithms for finding a hidden Pok茅mon and learn when to choose one over the other. This video can be played online or downloaded. Handout, game sheets, and transcript are included.  18 minutes.  

 (Grades 9-college) In this eight-minute video, Dr. Brown recalls the advice he gave students in his classes about note-taking and studying.  Transcript and slides are available with the video.  

(Grades 3-5) Students make their own binary counting cards, then learn to manipulate binary numbers following instructions in a video. This video can be played online or downloaded. Handout, printable counting cards, and transcript are included. 13 minutes.

Other Presentation Topics

  • This is a single 50-minute presentation based on the Battleships activity from CS Unplugged, revised to use Pok茅mon instead of battleships.  Students work in pairs to locate each other's Pok茅mon, first performing a linear search, then a binary search, and, time permitting, a hashed search.  The concept of algorithm is introduced and formally defined.  Students learn that some algorithms are more efficient than others, and Big-O notation is introduced briefly.  The lesson concludes with a discussion of the importance of selecting the correct algorithm.  Curriculum elements include comparing numbers for equality and inequality, coordinates, algorithms, efficiency of algorithms, and searching.
  • Binary numbers: This is a single presentation of about 50-minutes that introduces binary numbers. It was designed for grades 6-10, but has been presented successfully to third-graders. The session outline and objectives are included in the teacher notes. If I present this, I will furnish a set of binary counting cards for each student, but we ask schools to duplicate the handout. I have fun presenting this, and I hope you'll invite me to do so, but I've listed them into a teachers' resource that will let teachers present it independently with minimal pre-work.
  • Boolean Logic: Kat's Cat Checker:  This is the logic-only part of the Digital Logic series, condensed to a one-period presentation. Kat, short for Katherine, is off to Hogwarts. Kat's Cat checker is a 50-minute presentation suitable for grades 8 - 12 that introduces Boolean logic to describe Kat's ideal cat. The handout for the presentation is here.  The entire presentation, suitable for use with the handout in a classroom, is available as a .
  • This is a 15- to 50-minute presentation, depending on the time available, in which I discuss a number of careers in the computing field and end by suggesting that students also consider becoming a college professor
  • This one is under development at a middle school; help me work on it. I'm working on a presentation of about eight or nine contact hours.  I'm looking for another school to work with me.  If you're teaching Python, try Python Jump Start, or check the free books at .
  • Cryptography, introduction: A single 50-minute session that introduces substitution and transposition ciphers, beginning with the C忙sar Cipher. Students decrypt a message encrypted with the rail-fence cipher, then create a keyword substitution cipher.  The presentation is available as a .  The accompanying .
  • A single 50-minute presentation that demonstrates the workings of modern public key cryptography, including digital signatures. This one is all lecture, with no classroom activities, and so is best suited to grades 10-12. There is a take-home exercise in which students generate their own public/private key pair.
  • Cryptography exercises: These are optional exercises for students who want to go beyond the exercises in the handouts.  The exercises cover the Vigen猫re cipher, the one-time pad, and public key cryptography.
  • Digital logic: I've presented this several times with refinements after each.  It shows students that there's no magic in computers. There is an outline and objectives document available; I am very willing to adapt it to your curriculum. Handouts for all three days are available to download, and there's a video of day 3.  Students need a basic understanding of binary numbers. This might fit best in grades 8 to 12.  This requires the free software package Digital Works.  If installation of software is a problem, I can bring copies for each student on CD.
  • Information Security: This is a series of three presentations with a target audience of grades 7-10. It is probably best to do these once a week or every other week for three or six weeks rather than all at once. The three sessions are Information Security Fundamentals, Encryption, and Threat Analysis. There is more detail in the outline and objectives.
  • Micro:Bit:  This is a series of eight 50-minute sessions in which students learn the fundamentals of programming using the Micro:Bit device. Programming differs from "coding" in depth and breadth. Students learn "coding" and also some of the science behind software development.
  •  What we can do depends on the school's objective, the equipment available, and the time available.  If you have Raspberry Pi equipment, I can help your teachers get ready to use it in the curriculum.  I can work directly with students to get them started building Raspberry Pi projects.  I can help your school start a  and provide some assistance in the operation of the club.  If the Raspberry Pi is new to you, it's a $45 computer that can be used for making physical projects.  The $45 is for a bare computer; you will end up spending $80-200 per pair of students to equip a Raspberry Pi lab.  I've prepared an annotated shopping list to help you get started. The  has more details.
  • I'm working with a middle school to teach block programming to sixth graders using the Sphero environment.  The program will be eight or nine lessons, and I'm looking for a second school to work with me.

Need something else? 

I am very willing to prepare new material to suit your needs or curriculum. Contact me and we can probably work something out.  I'm also available to help with curriculum development, professional development, and the development of learning objects.  Contact me at Bob.Brown@Kennesaw.edu to work out the details. 

Details

There is no fee for any presentation, but we do ask that schools duplicate any handout material that may be required. When I present at a school, a teacher must be present at all times and be responsible for classroom management. The presentations listed are designed for a room with a projector and a Windows computer that can show PowerPoint with video and sound.  If you let me know, I can bring a suitable laptop with HDMI video and audio output.  I can also present without audiovisual aids if you give me plenty of notice.


Copyright 漏 2018 by Kennesaw State University
Last updated: 2023-03-23 14:29, Originally published: 2018-03-30