PPT-HOW DO OCEAN GLIDERS WORK?

HOW DO OCEAN GLIDERS WORK Ocean gliders sink and glide downward from the sea surface when its computer triggers a piston that draws in some seawater and therefore extra weight Near the bottom a reverse action causes the glider to rise and glide upward towards the surface As the glider sawtooths its way through the ocean it measures ocean properties eg temperature Every few hours the glider pauses at the surface and transmits its data via satellite back to the laboratory thus providing us with a. An oceanliterate person understands the ssential Principles and Fundamental oncepts about the ocean can communicate about the ocean in a meaningful way and is able to make informed and responsible decisions regarding the ocean and its resources This Rockefeller Jr Memorial PKWY Big Hole NB Cowpens NB Fort Donelson NB Fort Necessity NB Moores Creek NB Petersburg NB Stones River NB Tupelo NB Wilsons Creek NB Kennesaw Mountain NBP Richmond NBP Brices Cross Roads NBS Chickamauga and Chattanooga NMP By . J. ada Holloman. Body. Sugar gliders are marsupial they have gray furry long tails.. It weighs about 4 to 6 ounces. Flaps of skin join the hands and the feet.. habitat. Sugar gliders are living in the trees of Australia. How gliders work. How an Airplane works. You will choose a partner.. You must maintain all planning stages, hypothesis/reasons for specific designs, designs, materials, procedures, results from testing, redesign and why, and final conclusion.. Update on SPURS-2 (‘Fresh SPURS’) and SPURS-1 synthesis. Update from Dr. Eric Lindstrom. SPURS main question: What . is controlling the upper ocean . salinity?. Will . be addressed with interagency and international collaboration using measurements from satellites, ships, drifters, floats, gliders, AUVs and modeling.. Flight. Stability for. Straight and Level . Flight. Glider in Flight. Gliders Are Long . Distance Fliers. Gaining Altitude. Glider do not have an engine. Use rising air to gain altitude . Balsa Glider Flight. EX. port.  . P. rocesses in the . O. cean from . R. emo. T. e.  . S. ensing . EXPORTS Writing Team. : . Mike . Behrenfeld. (OSU), Claudia Benitez-Nelson (. USoCar. ), Emmanuel Boss (. UMaine. ), Mark Brzezinski (UCSB), Ken Buesseler (WHOI), Adrian Burd (UGA), Craig Carlson (UCSB), Eric . Deliverable 4.1 or WP 4. Outline. Sustained observations of the ocean. Opportunities and challenges for glider technology. Examples of sustained observations . fomr. gliders. Conclusions. Sustained observations. -. Julian Oscillation. . . Toshiaki . Shinoda (Texas A&M . Univ.,. . Corpus Christi), . Weiqing. . Han (Univ. . of Colorado. ). ,. . Yuanlong. . Li (Univ. . of Colorado), . Chunzai. Wang (NOAA/AOML. -briefing. Radio . Frequencies. Arnborg 122,650 MHz. Mandatory . close. to Arnborg. Start times 130,750 . MHz . Max. 30 min. . after. . start line. Arnborg Finish. Call . 10 . km . out (XX 10 km). MEDITERRANEAN SEA. NILE RIVER. CONGO RIVER. ZAMBEZI RIVER. NIGER RIVER. ATLAS MOUNTAINS. SAHARA DESERT. DRAKENSBURG MOUNTAINS. GREAT RIFT VALLEY. ETHIOPIAN HIGHLANDS. KALAHARI DESERT. MT. KILAMANJARO. A Blend of Recent Activities and Near-Term Priorities. OBJECTIVES:. Address some long-standing algorithmic shortcomings of the Parallel Ocean Program version 2 (POP2),. Continue to develop new (or improve existing) . . Ocean Decade Research . Programme. on the Maritime Acoustic Environment (UN-MAE). Modeling and Prediction of Ocean Ambient Sound. . A Satellite activity of UN Ocean Decade Laboratories: A Prediction Ocean . IN. Pencil/Pen. PRIDE Cards. Crossword. Ch.1. . Sect.1. Questions. Log on to Edmodo/Synergy and check your target test scores from yesterday.. 2. Bubble in your scores in the back of your IN.. 3. Are you satisfied with the results? .