Day 4 Log: Honeywell Educators @ Space Academy


Day 4: Log

Another incredible day!  We started with an activity that I really want to use in my own classroom.  It is called the Thermal Design Challenge.  Our task was to explore how heat is transferred, examine how NASA’s previous Thermal Protection Systems protected spacecraft and build an ablative shield to protect our “egg-stronaut” from the heat of a mock “re-entry”.  The idea behind an ablative shield is that the outer surface turns white hot, chars, and flakes away taking the heat with it.  The challenge involved protecting an egg from white-hot temperatures.  Each team needed to stay below the 100 credit max.  Each type of material (ex: cotton balls, large steel, pasta, spackle, cork, aluminum foil, paper) was priced out.  We needed to brainstorm, draw a design, and keep the model no wider than a pencil.  Here is a picture of our set-up. You will have to watch the video to see if it worked!
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What I really liked about this activity was that even though our shield was an epic fail, I wanted to do it again; I wanted to improve our design. I think students may have a similar mindset and if I can allow enough time in my schedule, I would let them try again. What an amazing activity that shows true engineering at work!

After that competitive activity, we jumped right into our second mission of the week.  This time we were headed to moon in the year 2055.  A Shackleton control center as well as the Rising Star research station were habitable but the research station Aurora was in need of repair (broken windows and fire with the circuitry).  Six members of team Harmony were in the Operations control center, two members piloted the Orion spacecraft that was orbiting the moon, four took the spacecraft, Altair, to the moon’s surface to relieve the two astronauts in the Rising Star research station.  Those two astronauts could switch places and head back to the orbiting Orion via Altair.  Complicated, I know.IMG_5623

I had a different job this time compared to our first mission.  This time I was a lunar specialist in the Rising Star station. This was a lot of fun.  IMG_5626



I started the mission by performing some pre-EVA medical evaluations like real astronauts do before their EVA’s (Extra Vehicular Activity or “space walk”).  I needed to take my temperature, pulse and blood pressure before I got suited up.


After our pre-assessment, we ventured outside Rising Star to check oxygen and nitrogen tanks.  If they were too low, we needed to change them by unscrewing the hoses from the tanks and replacing them.  We also needed to check the batteries and wires, and replaced where needed.  Last, we needed to obtain a USB from a rover that was taking pictures along the surface.


Replacing O2 andN2 tanks



Checking batteries and wiring for possible damage.

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Our last task, before Orion brought the new team in, was to build a solar panel system.  This was so awesome.  We were hooked up to a ballast that filled with water to counteract our weight.  One little push and I was sailing towards the top of the tower.  Unfortunately, I did not get video but you can imagine from the pictures.


Notice the “solar panals” on the bottom left that I already assembled.

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A swap out with the new crew, led us to Altair and off of the moon to the orbiting Orion. This activity, again, was heavy on the teamwork.  The relief crew was late so when we boarded the Altair capsule, we were behind on the clock.  I panicked a little because we lost our ability to connect with Orion, but it worked out in the end.  Again, a strong reminder that it takes a team to make any of these missions happen.


Team Harmony at the end of the second mission.

After lunch we ventured to another activity called “X-Prize”. The “real” Google Lunar X-Prize was started in 2007.  The first privately-funded team to send a robot to the moon wins $20,000,000!  In order to win, the team must: successfully launch, land on the moon, rove 500 meters, and then transmit back images and video.  WE DIDN’T DO THIS COMPETITION!

Ours was titled, Payload Operations L.U.N.A.R. (Landing Unique Navigable, Astronaut-Driven Rovers).  Our objective was the get our payload (which was our “egg-stronaut”) to land as close as possible to a target from high up without damaging the rovers function and then travel down a ramp to mimic driving on the planet.  A credit limit of 100 credits was set.  Chosen materials were categorized based on how many credits they were assigned. IMG_5687 IMG_5688



Rover construction


Lander construction

Team Harmony blew everyone else out of the water in this activity. We were on cloud 9!!

The last activity I will discuss happened on Day 5 but I am going to leave that blog post to graduation and reflections!

The final activity was called ECLSS (Environmental Control and Life Support Systems). The task was to mimic what happens aboard the ISS. Water and Oxygen need to be pumped back into the system, while CO2 and other waste products need to get pulled out.ECLSS

Our task was to take (what looked like) urine and create a filtration system to obtain pure water that was drinkable. It needed to end with a pH of 7, be low on conductivity and be an efficient system meaning it needed to reclaim a lot of that liquid in milliliters! As usual, this activity had a credit budget and items (such as ammonium chips, lima beans, empty water bottle, plastic funnel, charcoal, cheesecloth, coffee filter, sand, gravel) were assigned a certain amount of credits. To take it even further, you could add a clarity scale. Here are some pictures of set up and a video of a good filtration system, and then I will discuss ours.IMG_5733




This activity was a great learning experience and I definitely want to do this in my classroom for a mixtures unit. Not having a good experience (by the way our “urine” turned black because we messed up and dumped some charcoal into our sample, don’t ask!) was ok. We learned from our mistakes and wanted to do it again, something I hope my students would say to. Understanding this environmental system helps students see that it’s pretty dangerous on the ISS and if anything goes wrong, it could lead to death.

Stay tuned for my final reflection on Day 5!  We graduated and I will be taking so much home from this program!

Thanks for reading,



Day 3 Log: Honeywell Educators @ Space Academy


Flight crew for Atlantis

Day 3: Log

What an exciting day!  Lots of simulations, starting with our mission.  Our goal was to relieve the duties of the astronauts aboard the International Space Station (ISS).  Four members of Team Harmony were aboard the orbiter (Atlantis), four were in the ISS and the remaining six were mission control.

There were many things going on in my mind; don’t blow up the ship by pressing the wrong button, don’t leave your crew behind in space, don’t crash while you’re landing.  All of this aside, my main thought was that it takes a team to do this.  Mission control was our lifeline in the orbiter.  When they didn’t respond to our call outs, we felt isolated.  We had multiple anomalies thrown at us and needed to communicate that information to mission control, they would then figure out a solution and tell us how to stop the problem.  We worked well under the pressure and completed the mission successfully! (Perfect landing too!)  The simulation made us stronger as a team.  What a unique experience!  If I do have an opportunity to bring students in the future, I know that this will be a highlight for them and solidify their team.


Flight crew for Atlantis (minus one, we left her on the ISS )


Team Harmony Members


Team Harmony Members

Soon after our simulator, we went to rocketry 101.  Building rockets as a class project uses all three learning styles, visual, auditory and tactile.  It is a great activity to focus on teamwork, basic engineering skills and to promote an interest in space exploration.  You can find applications to rocketry in history, science, technology, math and art.  IMG_5714[1]

I currently build rockets as an activity at the end of the year.  I do not provide my students with a whole lot of guidance and expect them to read the directions and work with a partner stressing communication and responsibility.  After attending this class at the space academy, I plan to re-vamp my whole set-up.  It is important for kids to feel ownership of their rocket.  If you can afford it, one rocket per student would be ideal.  If not, two students to a rocket is good; that is how I organize the project in my class.  Provide your students with 1-2 hours to work on it (this includes gluing and spray painting).  Set up a hot glue station and provide supplies like Elmer’s Glue on their desk.  I liked how the space academy instructors used shish-kabob skewers to provide a vertical post to slide your rocket down so it stands up in the grass and you can spray paint it.  They also used the instructions from the bags as a protector for the grass.


Working on the rockets

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On launch day, the space academy is fortunate to team up with the Estes Company and create a multi-rocket launch system (including a large wooden wall with windows to shield the students).  Most teachers do not have access to this kind of set-up and would most likely do what I do, which is to have all students where googles and stand back.  The electric circuit launcher that I have with my smaller Estes rockets has the system designed so the student stands a safe distance back.  See video for a visual of the launch at the space academy!  

In the late afternoon, before dinner, we had a presentation on commercial and international space flight.  What was very interesting about this discussion was the fact that there are a number of rockets being launched all of the time! Check out this link for the 2015 launch schedule:

The following pdf will help give you an insight on what happened LAST WEEK aboard the ISS.  Notice the landing dates.  If you read my log from day 1, you will notice that we had the opportunity to watch the live footage of the Soyuz TMA-15M landing back on Earth.  Samantha Cristoforetti was the astronaut on board that broke the record for the most number of days in space for a female.   np-2015-03-011-jsc-expedition-43-summary  Exciting things are currently happening in the realm of space exploration.  Here is a quick list of what I picked up on in the presentation but you can guarantee that I will touch on a lot more in my classes the following school year.

-The Rosetta comet landing happened in late 2014 through efforts from the European Space Agency (ESA).  After a decade of orbiting the galaxy the probe, Philae, finally made contact with the comet and now has plans to stay with it for a year tracking data on the make-up and geological history.  Click here for more details.

Asteroid Redirect Mission: This is exactly as it sounds.  NASA would like to capture and drag and asteroid into the moon’s orbit to use it for research, planetary defense against other asteroids and as a location as a half-way point for deep space exploration.

-3D printing has come to the ISS.  This really caught my attention because of the work I am doing in my own classroom.  Astronauts are now printing tools and other supplies that they may need aboard the ISS reducing critical payload weight for the launches. Click here for more details.

-MARS or BUST.  If you haven’t heard, we are going to Mars!  Humans not yet, but it will happen in our lifetime.  Click here for an awesome NASA website that explains our current rovers on Mars.   This link explains how NASA and ESA have signed agreements to continue the exploration to eventually get humans to Mars.

-The New Horizons program is going to be BIG very soon.  This rocket was launched 8.5 years ago and is scheduled to fly by Pluto very soon.  In fact, it will pass the dwarf planet on July 14, 2015 at 7:49:56 am EST.  The fact that they know this is mind-boggling.  Click here for more details on this incredible mission.  This spacecraft will take pictures of Pluto’s atmospheric and surface composition.  This link will show you what the spacecraft looks like.  What I thought was interesting was that students designed a piece of the spacecraft that analyzes the space dust it encounters.  A very cool “plug-in” is that one of our very own alumnae of Cranbrook, Dr. Kathy Olkin, is involved in this project.  I plan on reaching out to her in the fall to Skype with us.  She did visit our school 2 years ago but now she will have even more amazing findings to show.

-The James Webb Telescope will be the premier observatory of the next decade, serving thousands of astronomers worldwide. It will study every phase in the history of our Universe, ranging from the first luminous glows after the Big Bang, to the formation of solar systems capable of supporting life on planets like Earth, to the evolution of our own Solar System.  (

A couple of other things I jotted down in my notes from this discussion:

16 countries are associated with the ISS.

400 people have been to space.

Space Launch System (SLS) is the next vehicle to Mars.

NASA has selected two companies (Boeing and Space X) to focus on low orbit work (like the ISS).  NASA’s focus is now into deep space and Mars.

To end the night, (and this blog post) Team Harmony participated in two astronaut training simulators; the multi-access trainer and the 1/6 gravity moon simulator.  Note: the multi-access trainer does not make you get nauseous because your stomach stays in place and you do not rotate more than twice in a certain direction.

Thanks for reading!  Stay tuned for Day 4 Log.  More simulators and cool activities for the classroom!


Day 2 Log: Honeywell Educators @ Space Academy


Team Harmony at Area 51 challenge course

Day 2: Log

Today was a very jam-packed day filled with learning and fun!  The morning consisted of low ropes course activities at “Area 51”.   Our larger group of 14 was broken into 2 smaller ones completing multiple team-building initiatives.  What a great way to really get to know your teammates!  We laughed and strategized, completing 3 activities.  Personalities really came through and trust began to develop.  Everyone contributed in a unique way and pushed themselves to try something new.  What a great activity to bring into my classroom, especially at the beginning of the year.  These activities spur problem solving and creative thinking, team-building and leadership development.  If you cannot bring your class out to a facility, you smaller activities in your own classroom.
Aviator challenge photoLater in the morning, we all had the opportunity to experience the Aviation Challenge program which is a separate branch of Space Camp.


Our first scenario was of a helicopter going down in the water.  We needed to get all of the crew out alive and safe.  Certain protocols had to be followed. 


Team Harmony at Aviation Challenge

This was fun and exciting and congealed our group even more. The best part of the morning was the parachute decent simulation into water.  This activity consisted of the participate getting strapped into a harness and travelling backwards on a zip line into the water.  See the video for more of a visual.

A nice museum tour ended the morning with Tom Hancock as our docent.  As a software engineer for NASA, Tom worked on 5 shuttle missions including Columbia.  Check out the cards he gave us.  I have multiple to hand out to students throughout the year.IMG_5438

Tom told us insider stories of various missions all while we walked under the Saturn V (spoken as “Saturn Five”) rocket overhead.  This rocket was made famous in the late 60’s and 70’s due to its use in the Apollo program for human exploration of the Moon, and was later used to launch Skylab, the first American space station.  No human life or payload was lost out of the 13 launches from the Kennedy Space Center.  Click here to learn more about this amazing piece of space history.

To date, the Saturn V remains the only launch vehicle able to transport human beings beyond low Earth orbit. A total of 24 astronauts were launched to the Moon from December 1968 through December 1972.

A lot of this information will be embedded into my curriculum naturally while talking about forces, speed/acceleration, flight and Newton’s Laws. My students construct rockets at the end of the school year as well. What a unique story about the Saturn V to link to that lesson. I also like the idea of incorporating the history class when discussing Von Braun and his work in assisting the United States in the space race against Russia.


This picture shows the bottom end of the rocket.


Upper mid-section of rocket


Top of rocket

After lunch, we are assigned roles for our first mission which will be to launch the orbiter Atlantis to the International Space Station (ISS) to help repair damage.  This is called an Space Transport System (STS) mission because it involves a shuttle and support rockets (something NASA is beginning to conclude from the space program).

Six of us are assigned in mission control.  Some jobs include: Flight Director (oversees all mission control), Capsule Communicator (CAPCOM) which is the orbiter life-line for communication, Payload Communicator (PAYCOM) who talks to the ISS and others for navigation, control, emergencies and environment. Four of us are assigned on the ISS performing experiments and completing space walks in the white suits and four of us are in the orbiter shuttle, flying it and in-charge of payload and space walks.


A glimpse of what some of the simulation rooms look like.


Commander and my pilot


My mission and payload specialist


I’m flying this baby!


I hope I don’t crash this thing.

I am assigned-commander of the Atlantis.  This is exciting and nerve-racking at the same time.  I will be responsible for the crew’s safety with the orbiter, as well as landing.  We do a mini run-through for the real-deal tomorrow.  There are lots of details in the script that I am holding.  Lots of switches and buttons in the orbiter with time constraints.  I’m up for the challenge.

Stay tuned for Day 3 post where our mission is executed.  Funny videos to accompany!  Thanks for reading!


Day 1 Log: Honeywell Educators @ Space Academy


Honeywell Educators at the Space Academy #HESA2015

Day 1 Log

Incredible is an understatement.  I am pinching myself… did I get here?  The day started with information on our jam packed one-week agenda.  We received space suits the night before along with a bunch of other Honeywell “swag”! Introductions of the staff were made along with assignments of teams, each named after an ISS module.  Our team name: HARMONY.


Basically take advantage of every opportunity offered here!


Our first presenter, Ed Buckbee @RealSpaceCowboy has been a part of the U.S. space program for four decades.  He started in 1959 when America’s first Mercury astronauts were selected and attended launches of Alan Sheppard and John Glenn.  He was present for the Mercury, Gemini and Apollo missions.IMG_5254

As a NASA public affairs officer, Buckbee worked for rocket scientist Wernher von Braun at the NASA Marshall Space Flight Center.  In 1970, he founded the highly successful U.S. Space Camp and Aviation Challenge programs.  IMG_5263

His book, The Real Space Cowboys, touches on the lives of the early astronauts and the time in history where the  “race to the moon” was a hot topic.  Buckbee showed us a lot of really neat old videos, many from the moon landings.  Twelve U.S astronauts have walked on the moon and there have been 8 landings of rovers and probes on Mars.  Nine-hundred astronauts have been launched in space in the past 5 decades.  The space history that I learned today and once I read Mr. Buckbee’s book will only enhance the way I present the different projects I plan to implement this year.  Students need to know the “why” and the “how”.  I like the idea of incorporating history lessons into my units as a cross-curricular project.


The afternoon sessions were very exciting!  After lunch we had a presentation on flight hardware and engine components.  I found it fascinating to learn the anatomy of a rocket with capsules for the crew, payloads and fuel.  One of the main things that I will take away from this 1-hour session is the information provided about solid, liquid and hypergolic (mixed) fuel.  I can see myself adapting this information into a demonstration for my phase change unit at the beginning of the year or exothermic reaction unit later in chemistry.

This first video demonstrates a solid propellant.  Solid propellants give off a lot of energy and therefore a lot of thrust for a rocket but you cannot control this reaction.

This next video demonstrates a liquid propellant.  Liquid propellants give off less energy than solid propellants but you can control how much liquid is released.

This last video demonstrates a hypergolic propellant which is unique because it does not need an igniter, just an interaction between the reactants to start the reaction.  You would think this type of reaction would be the best out of three but hypergolic propellants are difficult to handle and are extremely toxic.

Our final presenter of the day was Astronaut Robert (Hoot) Gibson.  As a former Navy pilot and trained aeronautical engineer, “Hoot” led 5 shuttle missions, 1 as pilot and 4 as commander.  One of his “firsts” in space was docking the Atlantis shuttle at the Russian space station, MIR.IMG_5311[1]

I learned a great deal from his talk that I will take back into my classroom. It takes the shuttle 8.5 minutes to enter orbit travelling around 17,500 mph.IMG_5296[1]

Astronauts in the shuttle complete an orbit every 90 minutes so 45 minutes of sunlight for recharging batteries and 45 minutes of darkness.


Photo taken over Greenland


Night views over the Nile River delta and northern Africa.


Aurora Borealis (Northern Lights)

This was my first time meeting an astronaut. I asked him about medical issues that one may experience after completing a mission in space.  He said that your first problem in zero G’s is the fluids in your body.  Your face may swell and your sinuses will act up.  You tend to lose 8 pounds in zero G’s and your body stretches (no pressure on your vertebrae).  For longer stays on the ISS for example, you can potentially lose .5 to 1.5% of your bone calcium.  Some astronauts have to go through rehabilitation because of brittle bones.  You can also experience critical back muscle loss that could be a serious issue.  This information is important to relay back to students.  Class discussions could evolve into, “why would one want to put their health at risk?” or “what would happen if we do make it to Mars?”


Astronaut Robert Gibson

Overall, my day was packed full of excitement and learning.  Tomorrow our team will participate in a low ropes course, aviation challenge water survival and a mission training.  Stay tuned!!!

Thanks for reading!


Honeywell Educators @ Space Academy

Honeywell Educators @ Space Academy




Next week, I will be partaking in an adventure of a lifetime.

It all started last Fall when I was selected as a 2015 Honeywell Corporation scholarship recipient.  This program sends over 200 middle school math and science teachers from all over the world to the United States Space and Rocket Center (USSRC) in Huntsville, Al. for a week-long intense training in STEM curriculum and astronaut simulations!

I am gearing up for this incredible experience which I will document on this blog.  I just registered with the University of Alabama to complete a three-credit hour course on Space Orientation for Educators as a follow up of the week at USSRC.  I’m getting my packing list in order and my kids ready to go to grandma’s house!  Follow #HESA2015 to read up on the events of the week!

This year, Honeywell Educators at the Space Academy (HESA) is welcoming 205 educators from 24 countries this summer. See where they are from!



Learn more about this ‘game-changing’ experience for math and science teachers!

Can’t wait for this incredible experience!!  Stay tuned!

Thanks for reading,


A great way to introduce the concept of elements, compounds and mixtures

Last week marked the introduction of elements, compounds and mixtures.  I always like to begin the unit with an activity that will make my students pose questions and raise their level of curiosity.  One great activity that I came across by Flinn Scientific, Inc. is titled “Classifying Matter: A Nuts and Bolts Demonstration”. Click here for a copy:  Nuts and Bolts Activity What I like about this activity is that you are representing elements, compounds and mixtures with bolts, nuts and washers.  You provide the students with different scenarios such as: all bolts, or bolts with nuts attached or bolts with nuts attached and scattered washers.  Students are a little confused at first when you ask them to identify which ones represent elements, compounds or mixtures but they quickly pick up on the pattern and enjoy the activity.  After, I give them the short quiz, which is provided on the second page of the attached activity and have them work in teams to see who can correctly identify the most scenarios (this time using shapes).  For homework, since my class is flipped, I assign a video that defines elements and compounds and explains where they are located on the periodic table.  See my flipped video below for more information.

After watching the video, I want my students to become even more engaged with the periodic table.  The next lesson does just that utilizing the power of augmented reality.  Using DAQRI’s Elements 4D Blocks, students now have the ability to manipulate elements they could never see in a middle school science laboratory setting.  Today, my students scanned up to 36 different elements and discovered concepts such as location of the periodic table, color, state of matter and classification.  Click here for a copy of the lesson plans.  See the video below to watch this lesson in action!

Tomorrow we will be making pyrite!  Looks like an exciting unit in science. Stay tuned and thanks for reading!



Screencasting Tips

Here is the interview I did with TechSmith this past spring discussing tips when using video in the classroom.