By Teachers, For Teachers
With the growing interest in coding comes a call for after school tech camps that supersize student enthusiasm for learning technology in the classroom. If you've been tasked (or volunteered) to run this activity, here are five activities that will tech-infuse participants:
It's been said that inside 70% of us is a book crying to get out. Kids are no different. Many dream of becoming an author, a journalist, or another profession that focuses on writing.
In this class, take students through the six steps required to move from dream to publication:
The goal during the after school tech club is that each student will publish their first ebook -- or at least give it a good start.
Start with a discussion on 1) the difference between an amateur and professional writer, 2) what it means to be “published,” and 3) publication options.
Break students into writing groups. These are the individuals that will help each other to plan, write, and edit the ebook. Each week, students will complete assigned steps with the goal of finishing their book (such as plot out action, develop character sheets, and research a setting), then discuss in critique groups of 4-6 students either in person or on Google Hangouts.
Each student should plan on writing a set number of words each week, say, 2000 (about seven pages).
Reading, writing, speaking and listening
The Genius Hour Project traditionally sets aside 20% of class time to pursue a topic students are passionate about. An after school setting follows these basics, but adapted to a full-time exploration of the topic.
While immersing themselves in a topic they love, Genius Hour also teaches students how to pursue a goal important to them. That means fulfilling eight specific benchmarks:
While this is student-paced and self-directed, the teacher overseas each benchmark.
Any academic subject, as well as speaking and listening and research. Tech tools learned may include videocasting and audiocasting.
The teacher will make arrangements with interested senior centers for students to teach weekly classes. Students teach seniors how to use a variety of technology, “Emphasizing salient points in a focused, coherent manner with relevant evidence, sound valid reasoning, and well-chosen details, while using appropriate eye contact, adequate volume, and clear pronunciation” (from Common Core) such as how to:
The teacher will determine what tools are available to be used in the class (i.e., digital cameras, iPads, and email programs).
Introduce this project with a guest speaker who will discuss the special needs and learning styles of seniors. Students are then divided into groups of 4-6. One-two students will teach while other group members rove through the classroom to help seniors. Teaching will be paced for senior needs with the goal of helping them learn, not complete a set amount of material.
Research, speaking and listening, technology
Students select, learn, and then teach a digital tool they are interested in learning. Students are expected to understand how to use the tool, create a project that ties into classroom inquiry, and then teach classmates. Through this exercise, they broaden their awareness of digital tools that will benefit their learning, recognize overarching similarities shared by most webtools (for example, most have tools and toolbars, tooltips, and drag-and-drop functions), hone their skills by teaching classmates and answering their questions, and realize learning doesn't always require a teacher.
Because all of these tools are online, begin the exercise with a discussion on digital rights and responsibilities associated with web-based resources.
Students break into groups, select a digital tool that interests them from a list prepared by the teacher, and pick a date for their class presentation. Then, they assign tasks to group members that include:
Resources available include help files, the digital tool's website, how-to videos, and knowledgeable students and adults.
Each presentation is about thirty minutes, inclusive of teaching, demonstrating a project, and taking questions.
Research, technology, speaking and listening. Depending upon the tool selected, learning will also link to a wide variety of academic topics, such as writing, social studies, and math.
Khan Academy is an online program designed to teach math skills starting from where student knowledge is. It uses a combination of videos, white board how-tos, practice exercises, and quick quizzes. There are no weekly requirements, time-sensitive goals, or demands. It is student-paced and self-administered, allowing students to spend as much time as necessary to fully understand concepts.
The teacher sets up a class which includes all interested students. From the dashboard, the teacher can track student progress and observe sticky areas student may need assistance with.
The online program starts with a pre-test to determine the level of student knowledge, then provides exercises to backfill any holes in learning. Only after adequate scaffolding is provided do students move forward with new material.
Math, technology, enrichment, and a wide variety of academic subjects
There you are -- five activities that will easily fill an entire year of after school tech club. If your club lasts more than an hour, mix these up each day, allowing one hour for each. Let students pick what they'd like to participate in, but once selected, they are committed.
Questions? Feel free to email me at firstname.lastname@example.org. I've taught all of these.
Jacqui Murray has been teaching K-8 technology for 15 years. She is the editor/author of over a hundred tech ed resources including a K-8 technology curriculum, K-8 keyboard curriculum, K-8 Digital Citizenship curriculum. She is an adjunct professor in tech ed, CSG Master Teacher, webmaster for four blogs, an Amazon Vine Voice book reviewer, Editorial Review Board member for Journal for Computing Teachers, CAEP reviewer, CSTA presentation reviewer, freelance journalist on tech ed topics, and a weekly contributor to TeachHUB. You can find her resources at Structured Learning.