Chicago Engineering Explorations 6/27: Boat Building

Chicago Engineering Explorations 6/27: Boat Building

This week, our engineers are building boats using simple items. Today they used aluminum foil to build their boats to test how much weight they could hold. They learned principles about load, and about the Archimedes Principle!

Ask your students: How did the Archimedes Principle relate to your activity today? Why do you think this Principle is important to know? (Answers will vary)

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Chicago Engineering Explorations 6-26: Mini Lungs

Chicago Engineering Explorations 6-26: Mini Lungs

Today, in Engineering Explorations, the students learned about the anatomy of the heart and lungs and how they function in the human body. Our bio-engineers built their own working model of a lung and demonstrated how the diaphragm works based on air pressure differentials. The end goal of the day was to relate the lung model to relevant heart anatomy and physiology.

Ask your student: What is the purpose of the diaphragm in the repertory system? (Each breath begins with a contraction of a dome-shaped sheet of muscle underneath the lungs called the diaphragm. During inhalation (taking air into your lungs) your diaphragm contracts, or flattens downward, which reduces pressure in the chest cavity. Normal outside air pressure is higher, which forces air through the nose and mouth, down the trachea and into the lungs where pressure is lower (pressure systems move from high to low). On the other hand, upon exhalation your diaphragm relaxes, which increases pressure on the lungs and forcing air, containing carbon dioxide, out of the body.)

Belleville: Engineering Explorations 6/19-23

Belleville: Engineering Explorations 6/19-23

Monday:

Today, in Engineering Explorations, the students learned about the anatomy of the heart and lungs and how they function in the human body. Our bioengineers built their own working model of a lung and demonstrated how the diaphragm works based on air pressure differentials. The end goal of the day was to relate the lung model to relevant heart anatomy and physiology.

Ask your student: What is the purpose of the diaphragm in the repertory system? (Each breath begins with a contraction of a dome-shaped sheet of muscle underneath the lungs called the diaphragm. During inhalation (taking air into your lungs) your diaphragm contracts, or flattens downward, which reduces pressure in the chest cavity. Normal outside air pressure is higher, which forces air through the nose and mouth, down the trachea and into the lungs where pressure is lower (pressure systems move from high to low). On the other hand, upon exhalation your diaphragm relaxes, which increases pressure on the lungs and forcing air, containing carbon dioxide, out of the body.)

Tuesday:

This week, our engineers are building boats using simple items. Today they used aluminum foil to build their boats to test how much weight they could hold. They learned principles about load, and about the Archimedes Principle!

Ask your students: How did the Archimedes Principle relate to your activity today? Why do you think this Principle is important to know? (Answers will vary)

Wednesday:

In this lesson, our engineers applied the knowledge they learned earlier in the week in a race to assemble two different types of circuits, parallel and series. Their creativity really lit up the room as they explored the difference between these two circuit types by powering LED lights in each of these styles.

Ask your student: What is the main difference between parallel and series circuits? (Only one path in a series circuit; parallel there are multiple paths) Which circuit style causes voltage drop? (series)

Fun Fact: Refrigerators, freezers, and water heaters use series circuits while electrical outlets in a room, house, or building use parallel circuits.

Thursday:

Today, our engineers explored how their knowledge could be applied to the real world, by building solar cars! In this first part of a two part lesson, the students tested how different types of light effected their motors. Then, they got the wheel rolling by creating the body of their solar cars. Tomorrow they’ll complete their cars and put them to the test!

Ask your student: What is a solar cell? (It’s the “battery” of the car; it converts light into energy)

Fun fact:  The first solar cars were built in the 1950’s.

Friday:

Today students finished their Rube Goldberg machines, and took turns demonstrating them to the rest of the class! Using the Rube Rubric, each team was evaluated for the competition, and had the opportunity to observe all the different machines that were made.

 Ask your student: How well did your Rube Goldberg machine perform?

E^2: Engineering Explorations

E^2: Engineering Explorations

Design, tinker, build, test—then do it again!

Working in teams, participants will engage in hands-on activities as they explore the engineering design process through electrical, chemical, and biomedical engineering!

Students will design, build, and race boats, experiment with the chemical engineering behind solar homes, perform a calculator dissection to understand circuits from the inside out, and tackle the concept of robotic surgery as they make their own Bristlebot!

Summer 2017 is Almost Here!

Summer 2017 is Almost Here!

We are gearing up for summer 2017 and we are so excited to have all of you!

As we get closer to the start of our programs, here is some information that might be helpful to you.

Day Programs:

  • The program day begins at 8:30 a.m. and runs to 3:00 p.m. Morning drop-off/check in begins at 8:15 a.m. – and concludes at 8:30 a.m. Do NOT drop your child off prior to 8:15, as there will be so supervision available before this time.
  • Monday morning check-in: On the first day of the program, it is mandatory for parents to park and walk their participant to the summer program staff for first-day check-in. Your child will be assigned to a group leader who will be their same leader throughout the week.
  • Lunch is included in the program fee and provided through our food service, Sodexho. They offer many options for students, including burgers, macaroni and cheese, a salad bar, fresh fruit, and many other items. You may choose to send your child with a sack lunch if you prefer. Please note: the cafeteria is NOT a peanut free environment.
  • Pick up is promptly at 3:00 PM. We do not provide extended care. Please be timely and prompt with drop off and pick up for the best and safest experience for every participant.  Our personnel need to prepare for the next day after day programs end at 3:00 p.m.
  • Late Pickup Fee:  IMSA day programs end at 3 p.m.  Any parent/guardian picking up a child late will be assessed a fee of $15 per child for any pickup 15 minutes late and $1 per minute thereafter. Late fees are due on the child’s next day of camp.

Residential Programs:

  • Residential program check-in begins at 6:00 PM on the Sunday before the program start date. The entrance will change based on which dorms the students will be in. Please make note of this in your pre-program email!
  • Please plan on arriving to pick up your child between 1:45-1:55 p.m. the following Friday(the last day of the program). There will be a 30 minute program presentation/wrap-up starting promptly at 2:00 pm.
  • We do not honor requests to pair or group friends or relatives during their class during the day; however, they will have the opportunity to mingle during common activities such as lunch and free time.  Program participants are grouped at random to encourage a positive learning experience, meeting new friends while engaging in program activities.
  • We DO take requests for roommates. Friends or relatives (of the same gender) can be paired as roommates if both parties request each other by sending an email to us a studentenrichment@imsa.edu. Please include the program name and week offered, your child’s name, and the name of the child being requested as a roommate. We must receive this at least 10 days before the first date of your program to accommodate it.
  • Your child will be assigned to a group leader who will be their same leader throughout the week.