| Walk, Run, Jump! |
In this activity, students participate in a series of timed relay races using their skeletal muscles. The compare the movement of skeletal muscle and relate how engineers help astronauts exercise skeletal muscles in space. |
3 (3-5) |
Colorado (1995):
 Science
S100E763
Math
S103C26D S103C26F S103C283 |
30 minutes |
6 |
US$ 0.00 |
| Washing Air |
Students observe and discuss a simple model of a wet scrubber to understand how this pollutant recovery method functions in cleaning industrial air pollution. |
5 (4-6) |
Colorado (1995):
Science
S100D7F5 S100F4B7 S1015D9B
Math
S103C246 |
20 minutes |
28 |
US$ 15.00 |
| Wasting Energy at Home |
People use energy in all aspects of their lives — for cooking, lighting and entertainment. Much of this energy use takes place in buildings, such as our homes. To save money and reduce the impact on...
... morePeople use energy in all aspects of their lives — for cooking, lighting and entertainment. Much of this energy use takes place in buildings, such as our homes. To save money and reduce the impact on our environment, many people are reducing their energy use. One way is to hire engineers to perform home energy audits to understand the ways we use energy and identify ways we can conserve energy. In this activity, students act as energy conservation engineers and identify the ways energy is conserved or wasted. They also learn many ways to personally conserve energy everyday.
...less |
4 (3-5) |
Colorado (1995):
Science
S100D7F5 S1022DDF |
50 minutes |
1 |
US$ 0.00 |
| Watch It Slide! |
Students use inclined planes as they recreate the difficult task of raising a monolith of rock to build a pyramid. They compare the push and pull of different-sized blocks up an inclined plane, determ...
... moreStudents use inclined planes as they recreate the difficult task of raising a monolith of rock to build a pyramid. They compare the push and pull of different-sized blocks up an inclined plane, determine the angle of inclination, and learn the changes that happen when the angle is increased or decreased.
...less |
4 (3-5) |
Colorado (1995):
Science
S1002447 S100D7F5 S1015D9B
Math
S103C242 S103C259 S103C26D S103C27F |
30 minutes |
3 |
US$ 1.50 |
| Water Filtration |
Students will learn about the importance of water and the role it plays in our lives. Students will be exposed to what must occur each day so that they can have clean water. |
4 (3-5) |
Massachusetts (2001):
Science
S10047AA S100D897 S100EBE2 S101F91A
Math
S1023F11 |
60 minutes |
|
US$ 0.00 |
| Water Power |
In this activity, students observe a model of a waterwheel to investigate the transformations of energy involved in turning the blades of a hydro-turbine into work. Students work as engineers to creat...
... moreIn this activity, students observe a model of a waterwheel to investigate the transformations of energy involved in turning the blades of a hydro-turbine into work. Students work as engineers to create a model for a new waterwheel while considering resources, such as time and materials, in their design. Students also discuss and explore the characteristics of hydropower plants.
...less |
4 (3-5) |
Colorado (1995):
Science
S100351E S100BEC7 S100D2A0 S100D7F5 S1015D9B
Math
S103C21C |
50 minutes |
4 |
US$ 1.00 |
| Waterwheel Work |
Students learn the history of the waterwheel and common uses for water turbines today. They explore kinetic energy by creating their own experimental waterwheel from a two-liter plastic bottle. They i...
... moreStudents learn the history of the waterwheel and common uses for water turbines today. They explore kinetic energy by creating their own experimental waterwheel from a two-liter plastic bottle. They investigate the transformations of energy involved in turning the blades of a hydro-turbine into work, and experiment with how weight affects the rotational rate of the waterwheel. Students also discuss and explore the characteristics of hydroelectric plants.
...less |
4 (3-5) |
Colorado (1995):
Science
S1002447 S100351E S100D7F5 S1015D9B S1022DDF
Math
S103C242 S103C26F |
50 minutes |
3 |
US$ 0.50 |
| Weather Alert |
Students discuss the characteristics of storms, including the relationship of weather fronts and storms. Using simple materials, the students develop a model of a simple lightning detection system and...
... moreStudents discuss the characteristics of storms, including the relationship of weather fronts and storms. Using simple materials, the students develop a model of a simple lightning detection system and analyze their model to determine its effectiveness as a storm warning system for a community.
...less |
8 (6-8) |
Colorado (1995):
Science
S100D7F5 S100F4B7 |
90 minutes |
2 |
US$ 2.00 |
| Wet Pennies |
Students conduct a simple test to determine how many drops of each of three liquids can be placed on a penny before spilling over. The three liquids are water, rubbing alcohol, and vegetable oil; beca...
... moreStudents conduct a simple test to determine how many drops of each of three liquids can be placed on a penny before spilling over. The three liquids are water, rubbing alcohol, and vegetable oil; because of their different surface tensions, more water can be piled on top of a penny than either of the other two liquids. However, this is not the main point of the activity. Instead, students are asked to come up with an explanation for their observations about the different amounts of liquids a penny can hold. In other words, they are asked to make hypotheses that explains their observations, and because middle school students are not likely to have prior knowledge of the property of surface tension, their hypotheses are not likely to include this idea. Then they are asked to come up with ways to test their hypotheses, although they do not need to actually conduct these tests.
...less |
7 (6-9) |
North Carolina (2004):
Science
S1028413 S1028415 S1028419 S102841E S1028428 S10284AF S10284B1 S10284B5 S10284BA S10284C4 S1028531 S1028533 S1028537 S102853C S1028546 S102855E S1028574 S1028587 |
20 minutes |
4 |
US$ 1.00 |
| What a Drag! |
The purpose of this activity is to demonstrate how drag affects falling objects. Students will make a variety of shapes out of paper and see how size and shape affects the speed with which their paper...
... moreThe purpose of this activity is to demonstrate how drag affects falling objects. Students will make a variety of shapes out of paper and see how size and shape affects the speed with which their paper shapes fall. They will also be able to see how the weight of an object changes the speed with which it falls.
...less |
5 (4-6) |
Colorado (1995):
Science
S1002447 S10069B9 S100D7F5 S1012041 S1022DDF
Math
S103C246 S103C25E S103C272 |
45 minutes |
4 |
US$ 1.00 |
