Difference between revisions of "Middle School Computing with Robots: 2009"
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== Class 1 ==
== Class 1 ==
Revision as of 03:33, 19 December 2009
Overview of the Middle School Experience
This past semester two groups of middle school students, ages 11-14, participated in a study wherein they were taught computing. The aim of the study was to attempt to elicit why people, particularly women, do not gravitate to computing, and attempt to change their attitudes towards computing in general. We used robots throughout the course in order to achieve this goal. The course met once a week for an hour and a half and met over the course of 8 weeks. One group was unable to finish the curriculum due to scheduling problems and only finished 6 weeks of the curriculum.
The following is a copy of each week's curriculum, the goals of the course, notes about each piece of curriculum, and conclusions about how the course ran.
Pre-Course and Other Logistical Notes
Total students: 12 (5 Girls, 7 Boys)
Age Range: 11-15, 6th through 9th grade
Originally, only students from one school, a girl’s school, were supposed to take part in the course. However, there was not much participation; only 6 students signed up, 2 of whom were in the 9th grade. The head of the school determined that students playing sports, which had already started, could not take the course despite there being no regular conflict between the two activities. This resulted in low participation. Though this implies that students would rather play sports than learn computing, we cannot make this assumption, however obvious it may seem. The commitment to sports had to be made earlier than the commitment to computing, which may have affected their decision. Because of low participation, we looked to another school to boost our numbers. 7 students from this school participated, all of whom were male and from the 6th grade. Though this number seems low, it is actually not: this school only has students through the 6th grade, and the class size of the 6th grade is 16 students, making the number of students in the class nearly 50% of the total class. In addition to this, it seemed that all the girls in the 6th grade played field hockey (a prior commitment), practice for which occurred on the same day of the class. The only male that did not participate in the class also had a prior commitment. In the middle of the course, the school scheduled a field trip to Bryn Mawr to do some computing with the whole class. The trip was a huge success, many of the girls, and the boy that could not participate, requested that the course be moved to a different day. Data on how many students would actually be interested in taking the class will be acquired very shortly.
3 students dropped the course, all of whom were female. 1 dropped the course stating that it was not what she expected. She only attended 1 class. Another 2 students dropped the course due to a new theater conflict 6 weeks into the course. This commitment was a larger commitment than computing, meeting everyday after school. One student was an actress, the other working on costumes.
The boys class started later than the girls class.
Originally, the girls group was forced to walk to Bryn Mawr because their school could not provide transportation. This cut 1/3rd, at times more, out of each class. After watching several classes, the school decided that they should provide transportation. It is not clear whether they had realized that itwas absolutely necessary in maintaining the integrity of the course, or if it had just been acquired. Throughout the course, lateness was a problem with the girl's group.
Goals and Methods
Though teaching computing was the overarching theme of the course, the main goal of the course was to stimulate young people's interest in computing, and inspire them to go further in the field. That being said, one of the largest goals of the project was to make computing both an educational experience but a very fun, interesting experience.
Academically speaking, the course focused far more on general problem solving, and computing at a higher level, than focusing on things like syntax or mastery of the python programming language. For example, the course frequently claimed that having a correct and strong algorithm is the most important part of solving a problem. Additionally, the course attempted to have students master three areas of general computing: sequential reasoning (e.g. putting instructions in the right order), understanding of loops, and understanding of conditionals.
The class generally had the same format each time of equal parts lecture (though participation was extremely encouraged), group activity, and individual programming project. The individual portion ensured that students would have time one on one with a teacher. We found that having two teachers in the room was necessary to ensure that everyone got individual time. The group activities were mainly active and often kinesthetic. Activities were meant to stimulate the students, keep them engaged, and enjoying themselves. Each individual project was chosen because of its appeal, as well as the students ability to finish them within the session. The lectures were meant to address both visual and audio students. A print out, filled with pictures, of the lecture notes was distributed to students each day. Additionally, the lecture provided time for questions, to go through interactive examples, and let students share their thoughts with the class.
[Class 1 Syllabus=http://wiki.roboteducation.org/wiki/images/5/51/Class1.pdf Class 1 Syllabus]
Strong Areas Students really enjoyed having open discussions about what robotics and computing are, and what AI is. Some of them even had a grasp on what programming might be like and could express, in plain English, simple AI algorithms (such as solving a maze).
The students really enjoyed and often would not stop driving their robots around the room and doing the maze
Weak Areas Because of the shortened time not all the students had a full go at driving their robots through the maze into the pyramid of doom.