Category: Mary Cook

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Mary Cook, December 18, 2004

NOAA Teacher at Sea
Mary Cook
Onboard NOAA Ship Ronald H. Brown
December 5, 2004 – January 7, 2005

Mission: Climate Prediction for the Americas
Geographical Area: Chilean Coast
Date: December 18, 2004

Location: Latitude 22°16.32’S, Longitude 86°10.94’W
Time: 8:30 am

Weather Data from the Bridge
Air Temperature (Celsius) 19.46
Water Temperature (Celsius) 19.81
Relative Humidity (percent) 69.46
Air Pressure (millibars) 1016.99
Wind Direction (degrees) 123.54
Wind Speed (knots) 15.73
Wind Speed (meters/sec) 7.20
Sunrise 07:57
Sunset 21:27 (9:27 pm)

Question of the Day

What does a psychrometer measure?

Positive Quote of the Day

For where your treasure is, there will your heart be also. Jesus Christ

Science and Technology Log

Today Diane and I journeyed up to the bridge struggling against the strong winds and the lurching of the ship. We interviewed Ensign Silas Ayers and “Pirate” Jim Melton. Silas gave us instruction on ship safety and navigation. He said the two most important things in navigation are: don’t hit anything and don’t run aground. Silas showed us how they plot the ship’s course on a map/chart and all the navigational instrumentation. The RONALD H. BROWN has radar that ranges up to 96 miles but it is set for 24 miles at this time. The radar is used to detect other ships that might be in our path. He also showed us the autopilot computer and controls. They can set the coordinates and the ship will drive itself!!! Of course someone has to stay on the bridge at all times, because as everyone knows computers have glitches that could cause a malfunction. That could be a disaster. Something that I find fascinating is that this ship can hover in one place! It’s officially called dynamic auto positioning. They set all the thrusters at a specific setting and the ship stays in one place. He then explained the ship’s lights. The ship has a red light on the port side and a green light on the starboard side. These lights reveal our ship’s location to other ships and enable them to ascertain our heading by watching the movement of our lights.

There’s another series of light signals that communicate the ship’s condition. For example, when we hover to do a CTD cast, the ship displays a set of red/white/red lights that tell other ships we are unable to make quick maneuvers. There’s also a set of lights that means man overboard. Another cool thing on the bridge was the spinning window. Yep. I said spinning window. It wasn’t spinning today but it can spin. (I hope they weren’t pulling my leg.) The purpose of the spinning window is to reduce ice buildup on the glass.

“ Pirate” Jim Melton shared with us the lookout duties. He keeps a watch that scans the horizon constantly. Jim uses an alidade. An alidade is a telescopic instrument that has a special swiveling balance that can compensate when the ship rolls, pitches, or yaws.

I looked through the alidade and saw a line across my field of vision. Jim said that they use that line as a reference point and they can determine the size of the ocean swells. Everyone working on the bridge must also report the complete weather data to NOAA every hour.

Before we finished, I sat in the captain’s chair and scanned the horizon for whales and other ships at sea!

Late this afternoon, Diane and I continued working on the children’s book. Bruce Cowden, the illustrator, is producing artwork faster than we’re writing the story! So we’re feverishly trying to catch up. It’s fun writing with Diane. She has a bright mind and she has a genuine excitement for atmospheric and oceanic science.

Tonight at “6:00 Science on the Fantail”, we interviewed meteorologist Dan Wolfe of the Environmental Technologies Laboratory in Boulder, Colorado and Frank Bradley physicist/ meteorologist of Australia’s Commonwealth Scientific and Industrial Research Organization. They have been studying clouds, precipitation and humidity, as well as launching radiosondes (weather balloons) 4-6 times a day. Dan explained how the radiosondes work. The instrument package records temperature, pressure, and humidity as the helium-filled balloon ascends into the sky. The radiosondes have a GPS antenna that transmits its location and another transmitter that communicates the data being collected back to the computer in the lab. All of this information is compiled to help develop a “picture” of the atmosphere in this region which has never been thoroughly studied. This information can then be used in making models for more accurate weather prediction.

Frank Bradley shared with us his work which has been in collaboration with Dr. Bob Weller and Dr. Chris Fairall for the past 20 years. Frank showed us the somewhat “old fashioned” Assman psychrometer that he uses to take the wet bulb and dry bulb temperature readings several times a day. A psychrometer’s temperature readings can be used to determine relative humidity. Frank says that he uses this low-tech instrument because nothing can go wrong. This psychrometer’s readings are then used as a validation of the high tech instruments on board. Frank said that he has studied air-sea interaction, the interface of the ocean and the atmosphere, for many years and considers it a very important area for developing better models to predict the weather.

Personal Log

Wow! I really liked the bridge! It is cool. I don’t know why they wouldn’t let me drive the ship. I mean, come on, we’re out in the middle of the biggest ocean on Earth. What could I run into? And there’s no ground in sight. Actually, there’s nothing in sight. So I’d be satisfying the two most important rules of ship navigation and safety: don’t hit anything and don’t run aground. It seems though, that I remember something about needing a license to drive. I’m not sure.

While on the bridge, I saw that our planned course will take us right by the San Felix islands. It’ll be the first land I’ve seen since December 5! I wonder what that will feel like?

As we near the end of the cruise and it seems almost all the work is done, everyone is reading guidebooks about Valparaiso and planning some excursions. Even though I’m not ready to get off the ship, I am feeling a little excited about seeing a new place. I just love to go to new places and I’ve heard that Valparaiso is one of Chile’s most beautiful cities. Diane and I are deciding what to do during our two days there. One day we want to see the city and another day we want to drive toward the Andes Mountains and get glimpse of Aconcagua, the highest mountain in all of the Americas!

Yeah! Another adventure awaits!

Until tomorrow,

Mary

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Mary Cook, December 17, 2004

NOAA Teacher at Sea
Mary Cook
Onboard NOAA Ship Ronald H. Brown
December 5, 2004 – January 7, 2005

Mission: Climate Prediction for the Americas
Geographical Area: Chilean Coast
Date: December 17, 2004

Location: Latitude 19°40.26’S, Longitude 89°46.38’W

Weather Data from the Bridge
Air Temperature (Celsius) 19.59
Water Temperature (Celsius) 20.13
Relative Humidity (percent) 73.07
Air Pressure (millibars) 1017.14
Wind Direction (degrees) 101.42
Wind Speed (knots) 15.44
Wind Speed (meters/sec) 7.67

Question of the Day

What are the ship’s three types of motion?

Positive Quote of the Day

“Never say “No” to opportunity.” Melvin G. Marcus

Science and Technology Log

Today, we made the big turn toward the San Felix islands and we’re heading southeastward at 12 knots. We did our last CTD cast of the cruise! Several of us decorated more Styrofoam cups to send down for compression by the pressure of the ocean water at 1000 meters depth. This afternoon and for the remainder of the cruise we will be tossing drifting buoys and Argo floats over board from the fantail. The Argo float has a bladder that inflates and deflates to allow it to go down to 2000 meters, drift in the current for about 10 days, and then record temperature and salinity as it comes back to the surface. It then transmits the data to a satellite where it is then sent to a ground station. The Argo float goes up and down over and over until the battery runs out. These floats are never recovered. It is hoped that there will be 3,000 of them in the oceans by 2006.

As we toss the drifters we are doing a promotional video segment to describe what a drifter measures and encourage teachers and their students to adopt a drifting buoy. This is a great way to get real science in the classroom. The Adopt a Drifter Program is sponsored by NOAA’s Office of Climate Observation and can be accessed online at http://osmc.noaa.gov/OSMC/adopt_a_drifter.html.

This afternoon Diane and I toured the ship and recorded it with the video camera. We went to the galley, mess hall, our stateroom and toilet room, the ship’s bow and the bridge. The bridge is where the ship is driven. While on the bridge, we spoke with NOAA Corps officer Silas Ayers and he explained how they record and report the weather observations to the National Oceanic and Atmospheric Administration (NOAA) offices located back in the United States. Tomorrow, he will give us a complete tour of the bridge.

In “6:00 Science on the Fantail”, we interviewed Chris Fairall, a physicist/mathematician who works for the NOAA Environmental Technology Lab (ETL) based in Colorado. Chris explained some of their instrumentation for measuring clouds and precipitation. He said that some of their instruments can individually measure the smallest of mist droplets! They have worked closely with the Woods Hole Oceanographic Institution over the past few years to compile data for the stratus cloud deck over this part of the Pacific Ocean. Chris said that the main reason this particular location was selected for the study was lack of data because it had never been thoroughly studied.

This evening, Diane and I continued the writing of the children’s book documenting this Stratus 2004 cruise.

Personal Log

Today has been another good day at sea. I’ve gotten emails from students, family and friends. I’ve had good food to eat and good conversation and laughter with new friends. I spent some quiet, alone time to ponder and count my blessings. The sun momentarily broke through the stratus clouds like a smile from up above! We tossed some Argo floats and drifters overboard. We’re steaming ahead to new and exciting places! What more could I ask for?

An observation: the Argo float is tossed in the water without removing the biodegradable cardboard box, so it looked to me like a casket as it floated away in the wake of the ship. I guess it really is a burial at sea because the Argo floats are never recovered.

Paul and I are about to deploy another Argo float shortly. This will be my first Argo float where I actually get to do the hands-on tossing! I’ve just been observing up until now. We’ll lower it by a rope over the back of the fantail then release it into the water.

Another observation: As the ship steams along it is rolling and pitching. All that motion causes stuff to shift and creak and rattle. Even if I’m in a room all alone, I still feel like someone else is there, too. It’s an odd sensation to hear a noise, turn expecting to see someone and nobody is there!

I look forward to tomorrow. We have a couple of interviews and will continue working on the book plus tossing a few more drifting buoys and floats along the way.

Until tomorrow,

Mary

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Mary Cook, December 16, 2004

NOAA Teacher at Sea
Mary Cook
Onboard NOAA Ship Ronald H. Brown
December 5, 2004 – January 7, 2005

Mission: Climate Prediction for the Americas
Geographical Area: Chilean Coast
Date: December 16, 2004

Location: Latitude 19°44.39’S, Longitude 86°20.07’ W
Time: 8:00 am

Weather Data from the Bridge
Relative Humidity (percent) 72.50
Air Temperature (Celsius) 19.34
Water Temperature (Celsius) 19.78
Air Pressure (Millibars) 1016.06
Wind Direction (degrees) 97.86
Wind Speed (knots) 20.90
Wind Speed (meters/sec) 10.31

Question of the Day

When is the first day of summer in the Southern Hemisphere?

Positive Quote of the Day

“Most of us miss out on life’s big prizes. The Pulitzer. The Nobel. Oscars. Tonys. Emmys. But we’re all eligible for life’s small pleasures. A pat on the back. A kiss behind the ear. A four-pound bass. A full moon. An empty parking space. A crackling fire. A great meal. Hot soup. A glorious sunset” -Anonymous

Science and Technology Log

Yesterday was probably the last RHIB ride I’ll ever get to go on and last night at midnight, we left the Stratus 5 buoy all alone moored to the Pacific Ocean floor. I felt a little wistful.

So far today has been a quiet day. We’re steaming toward the San Felix islands. We’ve started watch duty again. Alvaro Vera and I have watch duty together from 8:00 am to noon and from 8:00 pm to midnight. This evening we’ll do another CTD cast. All the WHOI guys are dismantling the old buoy and packing up all the components to be sent back to Woods Hole. I finally got tons of email from my students and many of them are tracking the adopted drifting buoy which makes me proud of them. It seems I’ve spent half the day answering them. I’ve enjoyed it though. It’s good to have connection across the miles. We came out from under the stratus cloud deck and what a beautiful day! People are sitting out on the fantail soaking in the sun and warmth.

Personal Log

I’ve just been out on the ship’s bow peering over the edge to watch the ship slice through the water. It’s mesmerizing and clears my mind of thoughts. I think it’s like meditating. It’s especially calming to just look and listen and forget everything else. I see the many hues of blue in the water. I hear the waves splashing and the hum of the ship’s engine. The salty air feels clean in my lungs. Even the greens of the slimy algae growth just below the water line add another dimension to the sights and sounds of life at sea.

With a clear mind and clean lungs,

Until tomorrow,

Mary

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Mary Cook, December 15, 2004

NOAA Teacher at Sea
Mary Cook
Onboard NOAA Ship Ronald H. Brown
December 5, 2004 – January 7, 2005

Mission: Climate Prediction for the Americas
Geographical Area: Chilean Coast
Date: December 15, 2004

Location: Latitude 19°43.66’S, Longitude 85°33.13’W
Time: 10:00 am

Weather Data from the Bridge
Wind Direction (degrees) 132.47
Relative Humidity (percent) 66.35
Air Temperature (Celsius) 19.44
Water Temperature (Celsius) 19.41
Air Pressure (Millibars) 1016.60
Wind Speed (knots) 15.05
Wind Speed (meters/sec) 7.54

Question of the Day

For what purpose are the lights in the hallways colored red at night?

Positive Quote for the Day

“The life that conquers is the life that moves with a steady resolution and persistence toward a predetermined goal. Those who succeed are those who have thoroughly learned the immense importance of plan in life, and the tragic brevity of time.” W.J. Davison

Science and Technology Log

We had another early morning RHIB ride! The purpose was to visually inspect the newly deployed Stratus 5 buoy. It looked so small out there in the choppy ocean water. The buoy was found to be in good working condition with a minor break in a railing that surrounds the weather instruments that sit atop the buoy. The break will have no bearing on the workings of the instruments so all was approved by Jeff Lord, the WHOI engineering technician. Then we took another wild ride back to the mother ship!

I think today is a good day to show you pictures of the inside of the ship and talk about ship life. Here are some of my impressions of the ship interior. The hallways are narrow and if two people meet, one must step aside. The doors seem to weigh two tons and if one slammed on your fingers it would crush them off.

You must step up and over as you cross the threshold of a doorway. It’s built up to prevent water from getting into every room if there’s a flood. In the stateroom (bedroom), the bunk beds are comfortable but there’s no room to sit up in bed. The round windows are called portholes. The toilet (called the head) has no lid. The toilet is flushed by pressing a button then a powerful vacuum suctions everything down! There are handles to hold on to in the shower. The shower room doors have huge, strong magnets that hold them open. All the drawers and cabinets have latches so they won’t swing open when the ship moves around. Everything is tied down or secured in some fashion. There are no wheels on the office chairs. At night the hallway lights are turned to red instead of white. The food is outstanding. We eat three meals a day plus snacks are available 24 hours a day. There’s an exercise room and a laundry room and a TV room where two movies are shown each evening. There’s a library, too. It seems that computers are in every nook and cranny. There’s lots of equipment onboard like scientific instruments and big machinery. They make water on the ship. I’ll explain that on another day.

Diane, Bruce and I collaborated on the children’s book again today. Things are coming together nicely.

At “6:00 Science on the Fantail” we interview the Chief Scientist, Dr. Robert Weller of Woods Hole Oceanographic Institution. He gave us the reasons for placing the Stratus 5 buoy at this particular location in the Pacific Ocean. Bob said that there needs to be greater understanding of air-sea interactions for scientists to make better models and predictions of weather and climate patterns. The area just off the coast of Chile is one that has had minimal data collected in past years. Plus, it is an area that has a constant stratus cloud deck which isn’t clearly understood. That’s why the Woods Hole Oceanographic Institution and the Office of Climate Observation have partnered to fund the Stratus program for, possibly, as long as 15 years. Now, in its fifth year, the Stratus program has collected very useful data that has helped in better understanding the eastern Pacific Ocean and the weather that originates there. Dr. Weller was also very pleased with the work effort and cooperation between the WHOI scientists, the crew, and the Chilean scientists and students. It took a well organized work effort to get it all done. Now the WHOI scientists and engineers are taking the data collected from last year’s buoy and beginning the evaluation process.

Personal Log

I have to tell you about the exercise room. Last night, Diane invited me to go down for a workout. Diane’s a runner and so she goes to workout every evening. I’d never really taken a good look in there, except to see several pieces of equipment because I hadn’t brought any clothes or shoes appropriate for working out. So, I thought, why not? I need to exercise. So I put on my trusty, old clunky hiking boots and headed down to the exercise room. When I opened the door there was a red and black stairway leading down toward a yellow grate. Most of the exercise equipment was sitting on the grate. The room was dimly lit and the air was cool. I could hear the humming of fans. There was one gray door that had a claxon sounding off from within. I considered opening it but changed my mind. I saw a red “Danger High Voltage” sign and about ten huge carbon dioxide tanks sitting upright in the corner. There were some blinking lights coming from a partially opened doorway leading into another room. Running along the ceiling and walls were cables and pipes. I knew I was alone so I looked around to survey which machine I’d try first. Over in the far corner were rows of orange-colored coveralls hanging from the ceiling by their hoods with their arms outstretched. All the orange suits were moving with the swaying of the ship. It appeared as though people were inside the suits and just hanging in mid-air! I stopped, and looked around with an eerie thought. I felt like I was in an episode of Star Trek where they have rooms filled with extra worker-drones waiting to be activated during times of crisis. OK. Maybe I have been on this ship too long. But it’s a great place for the imagination to run wild. Don’t you think?

Until tomorrow,

Mary

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Mary Cook, December 14, 2004

NOAA Teacher at Sea
Mary Cook
Onboard NOAA Ship Ronald H. Brown
December 5, 2004 – January 7, 2005

Mission: Climate Prediction for the Americas
Geographical Area: Chilean Coast
Date: December 14, 2004

Location: Latitude 19°45.13’S, Longitude 85°30.82’W

Weather Data from the Bridge
Wind Direction (degrees) 164.30
Relative Humidity (percent) 75.74
Temperature (Celsius) 18.60
Air Pressure (Millibars) 1016.02
Wind Speed (knots) 15.33
Wind Speed (meters/sec) 8.40

Question of the Day

Why do you think the floaters are made of glass?

Positive Quote for the Day

“Patience is passion tamed.” Lyman Abbott

Science and Technology Log

At about 5:30 this morning the WHOI guys are up early and ready to go! This is the day that the new and improved Stratus 5 surface mooring is deployed! It’s what everyone has been working toward. My understanding is that first, the mooring line and upper 50 meters of instruments will be put in the water and attached to the buoy. Second, the buoy will be deployed with a quick release hook off the port side. Then the ship will move ahead to bring the buoy behind it. Next, the ship will slow down and move ahead as needed to keep the buoy aft while the crew attaches the remaining instruments. The last things to be put on the mooring line are the glass ball floaters, the acoustic release, and then the 9000 pound anchor. We’ll wait around for a couple of hours for the anchor to sink and settle, then, they’ll take a Seabeam (echo-sounding) survey of the ocean floor where the anchor is located. After the survey, we’ll move downwind of the buoy and tomorrow inter-comparison testing will begin.

Now, it’s 5:30 in the afternoon, and all the hard work is completed. Everything went off without a hitch. Well, almost. There were a couple of tense moments throughout the day, but all in all it went very well. The planning and orchestration of the whole process is quite amazing with several people communicating with radios and hand signals, all getting it done just right.

At “6:00 Science on the Fantail”, we interviewed Keir Colbo who works for Woods Hole Oceanographic Institution. He shared with us his duties for the day. According to Keir, his job is to stay out of the way and record everything in a logbook. I mean everything. Keir wrote down the deployment time, serial number and order of every instrument that went into the water. He counted every glass ball floater (total 90). He recorded the Global Positioning System (GPS) reading of the anchor as it was dumped into the ocean. GPS uses a receiver to locate an object by detecting a series of satellites. Keir also explained the glass ball floaters. They are 5/8 inch thick glass domes with a diameter of 17 inches. The glass balls are put into bright yellow plastic hulls that protect from breakage and enable them to be chained together. Keir’s job is very important even though at times it may seem monotonous. When the scientists return next, his records will be the first thing they pull for references to make sense of the science.

Personal Log

It’s 5:30 Tuesday morning and I am sitting at my desk thinking about the day that’s before us. The ship is constantly moving with the ocean motions. There’s no way to get away from it – it’s always a presence with me. I can’t help thinking that we’re atop something alive and breathing. Every time there’s a swell it feels like the ocean is taking a deep breath and then slowly exhaling. It reminds me of the rhythmic breathing of someone who is asleep. I must admit, I can more easily understand why some ancient cultures worshipped the ocean or devised amulets for protection from the spirits of the ocean. Well, I don’t worship the ocean but everyday I gain a deeper respect and appreciation for it – for its vastness, and power and how much all of life on Earth is so intricately dependent upon its wellbeing. Even living things that are a long way from the ocean like in Arkansas, or south central Siberia, depend on the ocean.

I enjoyed today. We watched all the guys working in unison to get the work done which has danger lurking around every corner. These guys are safety-minded, too. They do things right and they watch out for each other. It’s also cool to see the Chileans and Americas working together. It’s like it should be. My least favorite part of the day was waiting for all the cable to reel out. I took a nap. My most favorite part of the day was when the 9000 pound anchor was dumped overboard! What a BIG splash! It sounded like someone doing a cannonball at the city swimming pool. Everybody was smiling.

Happy Birthday, Deano.

Until tomorrow…..

Mary