Two engaging and enjoyable science/art projects are in the works at School 12 in Paterson, NJ as part of the new STEAM program at School 12.
The STEAM program in Paterson has grown to include not only School 12 but also School 29, and the New Roberto Clemente School, making the total STEAM schools now eight this year.
With the assistance
of Art Professor in Residence Simone Sandler, the 6th graders in Ms.
Albritton’s science class are in the midst of building their own miniature cars to learn about
Newton’s Laws of Motion. Students are constructing chassis from recycled juice boxes. They are then measuring carefully to
construct functional axles and wheels from straws and life-savers. Wrapping their chassis in thin white paper
and using colored markers give students the opportunity to personalize their
vehicles.
Working in teams,
students are going outside and experimenting with their cars by sending them down
ramps (inclined planes) set at different angles. Using stopwatches and rulers, students take turns racing their cars down the ramps and measuring the distance and time for
each car. The calculations are being used
to determine the speed of each vehicle.
Essential questions
for the follow-up of this lesson include:
1. What made a difference in the speed of the cars?
2. Was the slope of the ramps a factor?
3. Was the roughness of the surface of the ramps a factor?
4. How does resistance affect a car’s speed?
5. How can cars be made to travel faster?
This hands-on
experience inspired the students to develop critical thinking skills while
problem solving with their peers.
In another School 12 classroom, a different STEAM project is being developed focusing upon biology and art.
As part of their science curriculum, students in Mrs. Krisak’s 4th
grade class are studying plant and animal cells. With the assistance of Art Professor in Residence Simone Sandler, students are using Styrofoam trays recycled from lunch. They are working in pairs to draw and color the parts of the cell, and, using
toothpicks, to identify and label the
different parts. In the process students will analyze the similarities
and differences between plant and animal cells, and learn how to distinguish
between them. This activity enables students to better retain information. Working in pairs encourages cooperation
and communication skills.