Tag: ocean pressure

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David Madden: Land Ho! Return Home, August 2, 2019

NOAA Teacher at Sea

David Madden

Aboard NOAA Ship Pisces

July 15 – 29, 2019

Back on land, in Tallahassee, FL

Mission: South East Fisheries Independent Survey

Geographic Area of Cruise: Atlantic Ocean, SE US continental shelf ranging from Cape Hatteras, NC (35°30’ N, 75°19’W) to St. Lucie Inlet, FL (27°00’N, 75°59’W)

Weather report in Tallahassee
Conditions early on Friday morning, Tallahassee, FL

Date: August 2, 2019

sunset over aft deck
Sunset aboard Pisces on my last night.

Gratitude Log:

My time on NOAA Ship Pisces is complete. Huge thanks to the folks who made it possible. I am grateful for the grand opportunity and grateful to the many people who helped me along the way. Starting with Emily and Jennifer at NOAA Teacher at Sea. They made everything smooth and easy on my end. Special thanks for allowing me to participate in Teacher at Sea this year, considering I was originally assigned to go last year. I was unable to go last year because my Dad got diagnosed with cancer right before the trip, and I elected to stay home with him during surgery and treatment. Emily, and the NOAA scientists involved, Zeb and Nate, made this year’s trip preparation a breeze. Thank you. Additionally, my Dad is doing well (and even back on the golf course)!

Processing fish
Processing fish with Mike B (the elder) and Todd K. photo by Mike B (the younger)

In some sense I was the little brother tag along on this cruise. “Aww come on, can I play?” was basically what I was saying each day to the scientists and NOAA officers. They were happy to oblige. Thank you for being patient and supportive while I learned how to work on your team.

  1. Zeb, Todd K, Todd W, and Brad were particularly helpful and knowledgeable and patient – thanks, guys!  * Thanks, Brad, for your rocks of the day.  Our minds and our chakras benefited.
  2. Thanks to my roommate, Mike B – for being a great roommate and for helping me out with a ton of things (including excellent slow mo footage of the XBT!)
  3. Thanks to the NOAA officers who were always happy to chat and tell me about how things work and about their careers. Thank you CO, XO, Jamie, Luke, Dan, and Jane. * Did you know that all NOAA officers have a college degree in a STEM field?
  4. And thank you to the scientific team of all stars: Dave H for always being hilarious, Zach for being hardworking and friendly to talk with, Mike B for being so wise and having good taste in music, Kevan, for lots of good chats during meal times, and Lauren, for making Oscar the octopus and being so friendly!
Engine Room
Just hanging out in the engine room one more time with Steve. Thanks to Steve and Garet!

Science and Technology Log

Todd W is the Senior Survey Technician. He works on Pisces full time and helped out the science team with running the CTD (conductivity, temperature, depth). Todd also helped me run a few experiments, and was overall real cool with helping me find random stuff during the cruise.

In particular, Todd and I, with Mike B’s help, tricked out the CTD to investigate how colors change with depth. We arts-and-crafted a few color strips and secured them to the CTD along with some GoPros to record video. We wanted to see what happened to various colors as the CTD descended to depth (~90m). See what it looked like at the top vs. the bottom (image below). You can see clearly that indeed the red color disappeared soonest while most everything took on a blue tone. This is because red is the longest wavelength on the visible spectrum and therefore the lowest energy (~ 700 nm); it’s the most easily absorbed by the water. Conversely, blue light has a shorter wavelength (~400 nm), and this means higher frequency and higher energy. I made a video with the footage we collected – coming soon. When it comes out you can see for yourself the reds disappear and the colors shift to blue. We also secured a Styrofoam cup to the CTD in order to watch what happens as the pressure increases on the way down. *See here for my pressure video covering similar topics. The CTD only went down to around 90 meters, but that was still enough to increase the pressure from 1 atm to around 9 atm. This nine fold increase shrunk the cup around 12%. Todd tells stories of taking Styrofoam manikin heads down to 300 + meters and watching them shrink to the size of a shot glass.

testing color and pressure
Science lab aboard the CTD – testing color and pressure.

In addition to CTD excitement, Todd let me conduct an XBT launch. XBT stands for Expendable Bathythermograph. * This cruise had the highest density of acronyms of any experience in my life. Geez. Here’s a link from NOAA describing XBTs.  And my pictures below.

 

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Bravo, Todd & NOAA Ship Pisces – you got me!!

XBT certificate
Don’t worry, my XBT bravery and expertise didn’t go unrewarded.

Neato Fact:

We stopped by the NOAA Beaufort Lab shortly after we docked in Morehead City. Todd K was awesome and showed me around and introduced me to a series of interesting characters – it was nice to see the lab and see what everyone had been talking about. I spent a short time walking near the sea wall outside the lab. I ran into Larisa who pointed out two cute baby green sea turtles. She said that recently they’ve started coming into the inlet to feed.  Related neato fact: Hawksbill sea turtles have been shown to exhibit biofluorescence.

Baby green sea turtle.
Baby green sea turtle.

Personal Log

It’s good to be back on land, and fun to trade the breezy blue ocean seascape for the hot humid green treescape of Tallahassee. I’m busy trying to process the information from the trip and figure out ways to incorporate it into my teaching and lesson plans. Surely it’ll take two forms – a little bit of distilling and planning now, and a slow seep of info from memories later. I’m hoping the trickle of revisited memories pop up at opportune times during the school year for me to take advantage. We’ll see.

I’m back to school in a few days.  This is the last full blog. Coming up I’ll post some quick hit blogs with links to some videos. Stay tuned.

Sunset
Until we meet again!

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Beverly Owens: What Skills Are Important in Becoming a Scientist or Engineer? June 17, 2013

NOAA Teacher at Sea
Beverly Owens
Aboard NOAA Ship Henry B. Bigelow
June 10 – 24, 2013

Mission:  Deep-Sea Corals and Benthic Habitat: Ground-Truthing and Exploration in Deepwater Canyons off the Northeastern Coast of the U.S.
Geographical Area: Western North Atlantic
Date: June 17, 2013

Weather Data from the Bridge:
Air temperature: 17.60 oC (63.68 oF)
Wind Speed: 13.41knots (15.43mph)
Water Depth of current dive: approximately 1800 m (5905 ft)

Science and Technology Log

I have been amazed in watching the Science Crew (scientists and TowCam engineers) operate this week.  With any challenge that is presented, they work as a team to make minor adjustments, troubleshoot, and correct any issues that may arise. That got me thinking…what skills or characteristics are important in becoming an engineer or a scientist?

I surveyed the Science Crew, and based on their responses, have developed a list of skills important for scientists and engineers:

  1. Have a positive attitude.
  2. Be an excellent student. Learn to think independently.
  3. Be a good writer.
  4. Communicate well with others.
  5. Develop analytical thinking skills.
  6. Volunteer or become familiar with resources, like labs, museums, or other scientific institutions.
  7. Develop strong math skills.
  8. Develop computer skills or computer programming skills.
  9. Perseverance: If you make a mistake you can’t get down about it. You have to pick yourself up and try again.
  10. Curiosity: If you are curious, you’ll be passionate about what you’re studying, and will be able to communicate that to others. If you’re passionate, you will persevere and work through the challenges.

Personal Log

During my Teacher at Sea experience, I have had the opportunity to observe the Science Crew during many different activities. Below are some skills or characteristics that I have seen exhibited by the scientists and engineers involved in this research expedition.

  1. Work as a team.
  2. Cooperate: Get along with others.
  3. Be tenacious and persevere; be steadfast, never give up.
  4. Look at things from different perspectives; think “outside of the box.”
  5. Listen to and respect other people’s ideas.
  6. Focus on the task at hand.
  7. Think things through before jumping in.
  8. Come up with hypotheses or solutions and test them. If the solution doesn’t work, try another one.

As science teachers, we try to instill these traits in our students in the classroom. Whether it is completing a group project, conducting a lab, or taking notes, there is always opportunity to improve our science and engineering skills.

Did You Know?

One feature of the deep ocean is that this region of ocean is subject to very high pressure due to the tremendous weight of the water above. So, how about a demonstration?

Take one Styrofoam cup, decorate it, and send it over a mile deep in the ocean. What happens to the Styrofoam cup?

It shrinks! Why? Pressure in the ocean increases about 1 atmosphere for every 10 m increase in depth. The increased pressure compresses the air inside the Styrofoam, and the cup condenses. It’s the same reason why your ears start “popping” when you drive to an area of higher elevation, like the mountains, or fly in an airplane. In that case, increase in altitude means a decrease in pressure

Increased pressure at the bottom of the ocean caused the Styrofoam cup to shrink.
Increased pressure at the bottom of the ocean caused the Styrofoam cup to shrink.