Wednesday, April 26, 2017

MS Science and Engineering Expo Photos

Thanks to all students, parents, and teachers for another incredible evening! The quality of the exhibits was high, and we could tell you worked hard. Enjoy the photos and videos below--you can click/tap on them to enlarge.

Tessa and Chloe show their Rube Goldberg dog feeding machine

Small children are enthralled!

The dogs enjoyed the show, too


A functional, hand-cranked, 3D-printed
Archimedean Screw
 
Jed and Ben show Lower Campus students their French Revolution
demonstration--fruit was definitely harmed in the making of this
exhibit!
 
...but put to good use in the
Blender Bicycle by Cate and Valeria!
Don't forget to hold that lid on!
 
Mercy and Jenny help Mrs. Short to understand key principles of
buoyancy, density, and mass--looks like exciting stuff!

Christine and Ashlynne with their impressive pulley arrangements

Pedro and Julian with their LEGO version of the legendary
Claw of Archimedes

Lux and Olivia put together this
impressive homemade hydraulic
robot arm--well done, girls!

Selene, Mr. Hougo, and Asher prepare a live demonstration of
a compound pulley system

Doing fine, three feet off the ground

Also doubles as a "time out" device
for small children (it's all right--it's
Mr. Meadth's son)

Caleb and Michael explored another
apocryphal war engine: the Archimedes
Death Ray!
 
Chloe and Ava with a motorized Aerial Screw, taken straight from
the pages of Leonardo da Vinci's notebook

Kayode and Josh lift 80 pounds of concrete and steel with a 3:1
mechanical advantage

Dylan and Jordan produced another
engine of war: the tennis ball ballista!


Sam and Tommy with their homemade motorized paper plane
launcher!  Standard equipment for every boy aged 5 to 105
 
Belen and Erica with an array of
marshmallow catapults

A surprising number of marshmallows never made it to the catapults

When Mr. Alker's son wasn't eating them, Mr. Alker was


Deacon and Chris were popular with
the racing crowd, tracking time, speed,
momentum, and kinetic energy

Julian and Zak loading a high-tension catapult, constructed entirely
of steel frame--be sure to watch the videos!



Once again, well done 8th Grade! Finish the year strong, and we'll do this again next year.

Friday, April 21, 2017

MS Science and Engineering Expo--Monday!


The Providence Engineering Academy and the MS Science Department are excited to present the second annual Middle School Science and Engineering Expo. It will be held at the Providence Upper Campus (630 East Canon Perdido Street) on Monday, April 24 from 4:30 pm to 6:30 pm. Entry is free, and refreshments will be provided.


Levers, pulleys, and screws, oh my! The theme is "Machines", with a medieval/Renaissance twist. The students have spent a month preparing their projects, building catapults, pulley systems, Archimedean war engines, and more. The interactive exhibits will be running the entire time, so come learn and support our students at this fun, family-friendly event!

Erica and Belen carefully design their catapult poster

Dylan with his very impressive
tennis ball ballista

Science history buffs might recognize this one--Eureka!

Julian with an almost-finished Archimedean war engine

Is that a blender on the back of that bike, Valeria? Smoothie to go!

Chloe with a scale model of Leonardo's aerial screw




(Many thanks to Kylie from the Providence Engineering Academy for helping write this article.)

Friday, April 14, 2017

Project Demonstration: RC Cars On Lower Campus


Elementary school students at our Lower Campus received a special treat last Friday when the students of the Foundations of Engineering II class demonstrated their latest project: remote-controlled cars. Utilizing much of the same equipment as the self-driving car project of last semester (i.e. the Vex robotics kits, CAD, and lots of trial and error), three teams of students constructed cars that they operated via a video game controller. After many weeks of hard work, multiple prototypes, and perseverance, the cars could move forwards, backwards, and turn on a dime with rack-and-pinion steering (well, maybe a silver dollar). Each car also had a built-in payload delivery system that deposited a 3D-printed figure at the push of a button, and a rear-wheel differential gearbox to allow for better cornering.

The afternoon's proceedings began with a brief introduction of the project to the 5th and 6th Grade students, given by the engineering students' teacher, Mr. Rodney Meadth. Mr. Meadth outlined the goals of the project and recounted some of the difficulties the students faced during the design process.

Mr. Meadth warms up the crowd before the demonstration

During Mr. Meadth's introduction, the three teams of students worked diligently to set up their cars. As with the self-driving car project, each of the three teams comprised four students, with distinct roles as follows:
  • Team Leader: co-ordinate efforts, give attention wherever needed, be an all-around expert in everything.
  • Mechanical Engineer: primarily responsible for building the physical structure of the robot, mounting sensors, and attaching custom parts.
  • Programmer: working on code that will navigate the robot around the course, incorporating sensor feedback and motor outputs to ensure success.
  • CAD Specialist: design custom parts in a CAD program (all students used Onshape), and then print them out for use in actuality.


Team ESTA makes their final preparations (Eva, Samy, Todd, Alena)

After the introduction, the teams each performed a solo demonstration of their vehicle. The demonstration consisted of navigating a course and delivering the car's payload to a marked target area on the floor.

First up was Team ESTA, with Eva, Samy, Todd, and Alena. After placing their vehicle at the starting line, the team carefully drove through the course towards the payload drop-off zone. With some slight course adjustments, ESTA managed to successfully deposit their payload, showing off their unique hinged box delivery system. Alena worked for weeks and went through several prototypes to ensure the hinges mated correctly, and could be driven by a VEX motor. Her online CAD file is publicly available here--you can even open and close the box by grabbing the lid with your mouse!

Next came Team JABS (Josh, Alec, Ben, David), whose car intimidated the competition with bright orange, spiked hubcaps and a crimson racing flag bearing their team name. They too successfully navigated the course and delivered the payload, though at a slightly slower pace than that of Team ESTA.

The Team JABS car living up to its team
name with some intimidating spiked hubcaps, designed by Alec

After overcoming some controller connection issues, the final team, JCVC (Jakob, Colby, Victor, Claire), demonstrated their car. JCVC's vehicle was the simplest of the three, lacking the adornments or sophisticated payload system of the other two competitors, but what it lacked in sophistication, it made up in the form of speed, being the fastest of the three to complete the assigned task.

With the end of the individual demonstrations, came the main event of the day: a race between the three cars around the track to determine which team had built the best remote controlled car. The elementary school students were abuzz with delight as the three teams lined up their vehicles at the starting line. The question on everyone's mind: Who will be victorious? 


The tension is palpable as the cars take their starting positions
for the race; from left to right: JABS, ESTA, JVCV

With a shout of, "Go!" from Mr. Meadth, the cars raced down the track. However, the chances of victory for one team were extinguished in mere seconds. Team JABS, despite an impressive showing in the individual demonstrations, suffered an immediate steering malfunction that, in spite of their best troubleshooting efforts, ultimately kept them out of the race. The two remaining cars continued to zoom around the track, largely neck and neck for several laps.

In a huge upset, Team JCVC suddenly suffered a critical mishap! As Team JABS attempted to resolve their steering issues on the track, they (accidentally?) managed to ram the "emergency off" button on the side of JCVC! This left only one car still standing, still making consistently strong laps. Team ESTA ended by pulling confidently into the drop-off zone and depositing their payload perfectly, eliciting a roar of applause from the 5th and 6th Grade!


Team ESTA members Samy, Alena, Todd, and Eva revel
in their victory

After the race's conclusion, Mr. Meadth brought up the winning team and opened the session up to questions from the audience. When asked by one of the Lower Campus students how one goes about making a project of this difficulty, Team Leader Eva encouraged the student to, "always ask for help, be patient, plan stuff out, and don't be afraid of failure." Programmer Todd answered a question about the coding process by calling for perseverance amidst "a lot of failures" in order to eventually find success.

The RC car demonstration on Lower Campus was a thrill for all in attendance, from the delighted elementary students to their cheering teachers. Well done to all teams for the many weeks of hard work leading up to this, and especially to Team ESTA!

Tuesday, April 4, 2017

Space Station Design: Engineers Bring CAD Expertise to Physics Class

In Mr. Hurt's Physics class, freshmen and sophomore students are currently designing space stations. Pictured here are the printed CAD models of some of those space stations. Note the circular symmetry in each that allows rotational motion to simulate gravity.

Student work from left to right: Todd, Victor, Josh, Alec, Alena

In the past, this project was a mathematical exercise and a simple drawing. This year, thanks to the Engineering Academy, the students were able to go beyond simple drawings and numbers on a page. The Providence engineers took their group's ideas and sketches and were able to make scale computer models that turned into the beautiful prints above!

Pictured here are three representations of the I.S.S. Dorothy, showing the printed CAD model, a stylized poster, and the station design and organization.

CAD by Alec Marchand
Alec's printed version, from a CAD file
created in SketchUp

Representating by Katie Gerawan
The stylized representation,
with a cool retro theme!

Jenna Peterson and Eva Kilpper design and parameters
The technical details (click to enlarge)

Each group member was assigned an expertise within the group in one of the following areas:
  • Design & Appearance. Each group presents a detailed scale drawing model along with an artistic representation of their group's space station.
  • Story. Consistent with the appearance, a short story is written to accompany the space station. This is a foray into science fiction, where both the science and the fiction are given attention.
  • Physical Parameters. After reading an article from NASA, design parameters are identified that would allow long term space travel. Each space station design has detailed calculations showing that the pseudo-gravity experienced on the space station is similar to gravity on Earth. 
By actually making physical models for these space stations, interesting questions arose that would not have otherwise come up. How do you find the volume of these shapes? How many people could live on these space stations?

Left to right: Isaiah, Todd (with Deadlock), Chloe

Pictured above is a group's final class presentation, entitled "Deadlock." Isaiah wrote a short story consistent with physics principles and went above and beyond to illustrate the story. Todd developed the CAD representation of the space station based on the parameters that their captain, Chloe, guided the group in developing.

Here is one group's cover page for their short story about an exploratory vessel looking for colonizable planets.

An advertisement for Orisa, a fictitious colonizable planet,
by Bella

Mr. Hurt loved seeing his students bring art, math, physics, engineering, and teamwork together for this unique project. Thanks to the Providence Engineering Academy for helping bring designs to reality!