Thursday, October 19, 2017

EnergyPartners Fund Grant Awarded

Over the past few years, our Engineering Academy has maintained a good relationship with the EnergyPartners Fund, a local nonprofit organization aimed at boosting STEM education in the Central Coast area. Several local energy companies pool their resources to provide much-needed help to schools and clubs and individuals.

Mr. Meadth, Megan, Tys, and Kylie proudly pose

Once again this year, our very own Academy students put their heads together to write a grant proposal for one of our upcoming projects. The request was for a set of quadcopter drone kits, which our students will purchase and build and modify later in this year, as part of their studies in aerodynamics and flight. One of the energy companies in particular, E & B Resources, picked up our project with interest, as they would like to use drones in the future to monitor their pipelines and properties. This is a growing trend in oil and gas industries, as companies strive to use technology to become more efficient.

Mr. Meadth, Kylie, Megan, and Tys listen to Amy Roth read out
their project description
 
Kylie, Megan, and Tys went along with Mr. and Mrs. Meadth to the Santa Barbara Maritime Museum, where Amy Roth from E & B awarded the students with the requested funds. She also extended an invitation to the students to bring their drones, when completed, up to the company operations in Cuyama to put them through some in-field operations!

The gang poses in front of an antique diving suit

Thank you to all students who helped write this grant, and to the three who were able to attend. The Providence Engineering Academy is very grateful to the EnergyPartners Fund, and specifically to E & B Resources. And you can be sure that we'll publish more about the drone project in second semester, so stay tuned!

Extracurricular research at the Maritime Museum

Monday, October 2, 2017

MS Engineering: The First Month

The popularity of the middle school engineering program at Providence has really taken off this year; for the first time, we will be admitting eighteen students in both first and second semester! It's our largest class size yet for this program, which is exciting. But what exactly, I hear you ask, are students doing in that class?

We kicked off the year with some pretty standard stuff. Newton's Laws kept us busy for a little while, talking about how objects in this universe move and interact. The highlight of this unit would have to be the inertia demonstration. Remove one tablecloth very quickly from underneath a dinner set, and hope that inertia does its job! Ryan was a very cooperative test subject.


The students also started the year with some simple challenges, focusing on teamwork, speed, and intuitive design. How many textbooks can you hold up, at least five inches off the table, using only two sheets of paper and a yard of tape? By the way, you only have two minutes to plan and three minutes to build! The class record is 26, held by Josh and Pedro a couple of years ago, but hats off this year to Audrie and Kassy, holding 12 books six inches high. At 3.6 pounds per textbook, that's 43 pounds!

Paul and Lily look on as Ella places her third book; unfortunately,
it was the straw that broke the camel's back

The most recent challenge was to build a bridge between two desks. After learning some basic principles of structural mechanics (triangle rigidity and maximizing the second moment of area of the cross-section), the students set about the task. We always talk in terms of constraints in this class, and the various constraints were as follows:

Materials:
Only allowed to use LEGO beams from a provided parts list

Time:
Three days of class

Personnel:
Teams of two

Length:
As long as possible (maximize)

Load:
Must support wooden train tracks (static load) and a motorized train running across it (dynamic load)

Other:
Must demonstrate the principles of good bending structures that we talked about

After breaking into teams, the students quickly set about collecting their pieces, and sketching their designs. Our enthusiastic students snapped together beams and frames, doing their best to imitate the rigid triangular structures they had been shown.

Gideon, Liza, and Kaitlyn working hard!

Tensions ran high (no pun intended) as the heavy little locomotive crawled across the tracks. The length of the bridges varied widely, from the shortest at 30 cm (1 ft) to the longest at 99 cm (over 3 ft). But most importantly: would the helpless engine tumble into the chasm?

The little engine thought it could, and so did Dennis and Jeffry,
with their sharply defined triangles clearly showing

Audrey and Kassy almost lost their load, but everything held
together in the end!

Miranda and Evan held their breath as the locomotive crawled
across their creation



In fact, although we desperately wanted to see some disaster, not a single one of the bridges failed! This is a new record in the engineering elective, and perhaps a tribute to their collective wisdom and skill (or maybe to their teacher?).

The next challenge? Use their knowledge of torque and rotation to build a crane that can lift as much load as possible.

Kassy and Evan carefully plan their motorized crane

Ella applies the power of a protractor

Dennis and Paul take a break from the drawing board to pose
for the camera

Tully and Liza consider Mr. Meadth's past designs

Stay tuned, and don't forget to ask your students how the work is coming!