Group/Teams

Contributor: Vickie Weeks 

While working in classroom, I found that students gravitated towards friends to create their team or learning community.  This behavior created "clicky" groups in the classroom and I noticed silos of learning taking place.  What I decided to implement in my classroom was randomizing the groups with Popsicle sticks.  Each time we had a learning activity I used these sticks (that had a student name per stick) to randomly place the students into groups.

We specifically investigated how we can integrate creativity more effectively in the classroom for the benefit of both students and faculty. Our investigation included: reading Creative Confidence, learning more about Design Thinking challenges, locating and sharing creativity resources, using creativity to personally address one teaching challenge, and implementing at least one actitivty/lesson/strategy that we deveop using creativity to at least one class this semester.

During the Spring 2017 semester, our Counseling Division held a retreat with all our residential and adjunct faculty.  At our retreat, we provided a catered lunch and shared best practices from our CPD 150 courses.  We discussed our OER Canvas curriculum for our CPD 150 classes.  We have five modules in Canvas for our CPD 150 courses:  College Resources, Time and Planning, Personal Development, Study Skills, and College and Careers.  We divided our division faculty into five groups, and assigned each group a module from Canvas.  Each group evaluated their modul

In our first run of the PHY131/MAT231 learning community (LC) in Fall 16, we tried a format of seting up a physics problem on an exam, and then use the resulting integral to be solved on the math portion of the exam. We would like to do this for each of the 5 exams in Fall 17. This would allow/require us to focus on intgrals from day one and reorder material in both classes. Some reordering was done in Fall 16, but after our first time around, we realize that more needs to be changed.

Classrooms are filled with students that show up but never participate, and that is distressing.  Educators know the real world does not operate in a singularity.  Contextually, singularity means success in achieved through collaborative efforts working in teams.  Your team may be geographically diverse, or sitting next to you.  Proximity is not important, sharing ideas and the ability to express thereof is important.

The Communication Abilities Rubric assesses areas of physical and vocal delivery.  Instructors and students have not fully understood the categories in the rubric. As an innovative approach, my Com230H section did a media project breaking down each element of the rubric into video. I allowed for flexibility with strict guidelines to ensure all disciplines and communication research was covered. Next, 18 students assessed themselves 3x for 3 group presentations.

I utilized Literature Circles as a method for creating stronger community in online classes, deepening the engagement between students, and practicing group work in prep for the course final. Students were in 1 group for duration of the semester, each group given additional readings to read, analyze and report out using the Literature Circles roles. The student in the Connector role would collect the student’s work and post it in Canvas for grading and students would switch roles on their own each week.

Trying to visualize molecular processes for students can be very challenging.  Neil Raymond and I decided to try 3-D printed objects to use in the classroom to teach these concepts in Biology.  I used the database thingiverse to search for models, and Neil designed and printed his own working sarcomere through tinkercad.  After using the models in class, I discovered that they can be powerful tools to aid in conceptualizing and visualizing processes, especially at the molecular level.  The 3-D printing is a compliment to STEM curriculum and promotes problem solving skill

A straight lecture on cell structures is torture for students. To remedy this, I designed a system of flashcards where each organelle is represented by 3 types of cards: a picture card, a structure card, and a characteristic card. Cards have alignment hints for the other two cards. Each group of 4 students is given one set of 36 cards. They work together to align the 3 cards for each organelle.  While groups are engaged in collaborative work to tease out details about each organelle, I can work more closely with each student as they learn to critically evaluate card content.

Instructors are tasked with having to prepare EMT students for work in pre-hospital, in-hospital and now more recently, mobile integrated healthcare settings.  The use of simulation in the classroom helps prepare students for the workplace by exposing them to a broad variety of situations they may encounter by allowing them to apply knowledge and skills without endangering a live patient.  During the simulation the students are placed in an environment set to a standardized patient scenario with a variety of sensory distractors such as props, smells, patient actors with moulage (m

Two of my hybrid EDU classes this semester were challenging me to actively engage my students, especially when involved in group tasks or assignments. Collaborative groups expert Spencer Kagan recommends, among a variety of strategies, the use of Talking Tokens. Each student is given 3 tokens (I use paper clips from a box in the middle of each table). As they talk, ask a question, give a suggestion, etc., they put a token back in the box. When they are out of tokens, they cannot talk until everyone else in their group is also out. Then, the process begins again.

In this study, a modified CREATE methodology (www.teachcreate.org) was used to incorporate the reading, analysis and discussion of four primary research papers from the recent biological literature into BIO182.  Individual and group activities were used to integrate the papers into the course; some activities were graded, some were not.  Activities included concept mapping, cartooning of experimental design, paragraph summarizing, data transformation, and figure annotation.

Learning Community (LC) faculty have been saying for 6 years that the main focus on the LC is to help students in future STEM courses.  Majoring in a STEM field is difficult; math is a barrier for most students.  Approximately 20% of community college students start as a STEM major with 69% of them changing it to non-STEM.  The LC course is designed to help students be successful STEM students and truly understand how math and physics are intertwined.  So, student grades were analyzed from fall 2010 - spring 2016.  Students that went through the LC vs.

In my Introduction to Physics class in spring 2016, I integrated a series of mini-lectures, hands-on activities, and conceptual questions for topics relating to internal energy into a single worksheet of questions that students complete as groups. I occasionally interrupted to have students discuss certain questions and so I could help motivate the answers to a few others. It seemed that students in past semesters were getting bored with perhaps the timing of or maybe the linear way we went through the series.