CK-12 Foundation
Scuba Training
How does a scuba diver control whether they sink or float? Scholars observe the relationship between absolute pressure and depth below the surface in an undersea simulation. They control the diver size and depth to center of mass to see...
Teach Engineering
Cartesian Diver
Amaze your scholars with an activity that uses a Cartesian diver to demonstrate Pascal's Law, Archimedes' Principle, and the Ideal Gas Law. Groups then repeat the process and make their own diver move up and down in a bottle.
Curated OER
Scuba Aruba
Young scholars interview a guest scuba diver or study electronic resources to discover facts about scuba diving. They investigate the physics of scuba diving, the gaseous components of air, equipment used, and safety precautions taken by...
Aquarium of the Pacific
Fish for a Day
A short video shows how a scuba divers' equipment relates to major parts of a fish. Learners draw two fish and identify what aspects are the same and which are different. The scholars then draw a scuba diver, making sure they provide all...
Curated OER
Construct a Buoyant Scuba Diver
Groups of young oceanographers get to use action figures to experiment with the property of buoyancy! This memorable lesson plan provides detailed background information, a link to the laboratory worksheet, and thorough instruction...
DiscoverE
Action Figure Diver
Will your next buoyancy lab rise to the occasion? Make a splash with action figure divers! Teams of young physicists explore the relationship between mass and buoyancy by adding weights or balloons to achieve a diver that neither sinks...
Curated OER
Scuba Diving
Students discover that scuba diving is more than a sport. It's a science that operationally integrates physics, chemistry, physiology, and oceanography. They perform a simple experiment which simulates the air tanks used in scuba diving.
Curated OER
Ups and Downs of Diving
Students explore the science and sport of scuba diving. In this scuba diving lesson, students build Cartesian divers and observe their behavior under water pressure.
Curated OER
Now, Take a Deep Breath
Students define several laws of pressure and see how they relate to scuba diving. In this ocean explorer lesson students answer questions and complete an activity.
Cornell University
Buoyancy
Swimmers know to float by turning their bodies horizontally rather than vertically, but why does that make a difference? In an interesting lesson, scholars explore buoyancy and the properties of air and water. They test cups to see which...
US Navy
The Science of Diving
Introduce gas laws using the popular topic of SCUBA diving. This activity makes a connection between the gas laws and the effect of pressure and temperature changes during diving. Young engineers complete introductory experiments to...
Curated OER
Underwater Nature Trails
Students research dive sites on an underwater nature trail that would introduce divers to the wonders of the reef surrounding South Caicos. They then recreate each dive site using shoe box diorama and create an information station at...
Curated OER
Divers's Decompression
Students are exposed to the physics and physiology of scuba diving, study the principals applied in the U.S. Navy Decompression tables and work out typical decompression problems.
Curated OER
Reception: Colour the Fish
For this coloring worksheet, students color 5 of the 8 fish on the page. The page also contains a scuba diver, who is saying "Colour five fish", and an octopus that is already colored in.
Curated OER
Now Take a Deep Breath
Students research to answer questions related to deep sea diving. In this deep sea diving instructional activity, students answer questions on a worksheet using the Internet. They discuss pressure, gas laws, and the physiology of diving...
Curated OER
Math Under Pressure
Students are told that an air tank contains a fixed volume of air under pressure. As air is used, the pressure decreases at a rate that depends on the depth. Students discuss how SCUBA divers calculate the amount of time they can spend...
Curated OER
Gardens Under the Sea: Coral Reefs
Learners, with dive partners, explore coral reefs through scuba diving. They also explore radial symmetry and bilateral symmetry.
Curated OER
Currents: Bad for Divers; Good for Corals
Students describe, compare, and contrast major forces that drive ocean currents. They discuss the general effects of topography on current velocity. They discuss how velocity affects the ability
California Academy of Science
Buoyancy Bulls-Eye
Why does a seastar sink, but a jellyfish float? Through a fun investigation, learners examine the concept of buoyancy using simple household items. The challenge: create neutral buoyancy for an action figure in water. With ample teacher...
Aurora Trust
Journey Under the Sea
Discover the interesting world of maritime archaeology and explorations under the sea with this nice set of worksheets, which cover such topics as search tools and techniques of underwater archaeology, carbon dating, vessel types, and...
Curated OER
Lake Strata and Internal Waves
Use the classic density demonstration of placing a cola, a clear soda, and a diet soda into a tank of water. Then let learners attempt to pour some of the soda into layers in a clear container. The procedure explains a thermocline, and...
Curated OER
Water Pressure in the Ocean
Students compare the pressure of water at different depths and gain an understanding of how increased water might affect animals living in deeper waters. They participate in an experiment to show that depth, not volume, affects water...
Curated OER
Gas Law Practice Sheet
In this gas laws instructional activity, students solve ten problems using the various gas laws such as Boyle's Law, Charles' Law, and the ideal gas law. Students demonstrate an understanding of the relationships between temperature,...
Curated OER
Habitats and Adaptations
Students research and describe the habitat and adaptations of a reef animal. After the student is assigned a habitat, they design and draw a cresture adapted to eat each food and to live in each habitat.