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Revision of The Science of Snowboarding from Thu, 03/04/2010 - 23:28

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  Document Type: Lesson Plan
  Lesson Plan Type: Video,Interactive Instruction
  Subject: Science
  Grade Level: 8
  Time: 60 minutes
  Last Updated: 05-08-2010
     
  Keywords:
     
     
 
Created/Provided by:
NBC Learn
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CALIFORNIA STATE STANDARDS ADDRESSED

Science/8/Focus on Physical Science
2.0 Unbalanced forces cause changes in velocity. As a basis for understanding this concept: a. Students know a force has both direction and magnitude. b. Students know when an object is subject to two or more forces at once, the result is the cumulative effect of all the forces. c. Students know when the forces on an object are balanced, the motion of the object does not change. d. Students know how to identify separately the two or more forces that are acting on a single static object, including gravity, elastic forces due to tension or compression in matter, and friction. e. Students know that when the forces on an object are unbalanced, the object will change its velocity (that is, it will speed up, slow down, or change direction). f. Students know the greater the mass of an object, the more force is needed to achieve the same rate of change in motion. g. Students know the role of gravity in forming and maintaining the shapes of planets, stars, and the solar system.
 
BRIEF DESCRIPTION
Students will explore the physics behind the amazing tricks snowboarders do in the half-pipe, specifically the concepts of gravity, friction, and energy (potential and kinetic). Students will also analyze factors, through a simulation, that make snowboarders go faster and higher on the half pipe.

 

 
PROCEDURES
 
Goal(s):
Students will explore the physics behind the amazing tricks snowboarders do in the half-pipe, specifically the concepts of gravity, friction, and energy (potential and kinetic). Students will also analyze factors, through a simulation, that make snowboarders go faster and higher on the half pipe.
 
Specific Objectives:
Students will be able to:
  1. Ask scientific questions.
  2. Simulate the “pumping” effect of a snowboarder on the half pipe by using a playground swing.
  3. Identify ways that snowboarders practice when they are not around snow.
 
Required Materials:
The NBC Learn Video: THE SCIENCE OF SNOWBOARDING!, a copy of the worksheet, “Student Activity: THE SCIENCE OF SNOWBOARDING!”, A playground swing, 1 meter stick taped to a second meter stick end to end, a computer with access to the Internet for research
 
Anticipatory Set (Lead-in):
Ask students to raise their hands if they have ever been on a snowboard before. Ask students if they have ever seen a snowboard competition before. Discuss answers. Tell students that they are going to learn about the science of snowboarding, which involves the concepts of gravity, friction, and energy. View the NBC Learn Video: THE SCIENCE OF SNOWBOARDING!
 
Lesson Plan Procedure:
See attached Student Activity Sheet for the procedure.
 
Closure (Reflect Anticipatory Set):
Write the words gravity, friction and energy on the board. Brainstorm with students on these three words and how they relate to snowboarding. Write brief words under each word to summarize what students say. Next, draw a venn diagram to show each of the three concepts in three circles that overlap one another. Help students place the words they have already brainstormed in the most appropriate place in the diagram.
 
Assessments & notes
 
Plan for Independent Practice:
Ask students to research ways that snowboarders can practice when they are not around snow. Students can work in groups to compile a list of techniques and strategies that snowboarders use when they can’t really use their snowboard on snow. Ask students to include at least one exercise that helps snowboarders when they are off the snowboard. Ask students to present what they found to the rest of the class including a demonstration of the exercise that snowboarders do.
 
Assessment Based on Objectives:
Begin the next day’s lesson with the quiz, “THE SCIENCE OF SNOWBOARDING!”.
 
Possible Connections to Other Subjects:
Social Studies/History/Technology: Students can research the history of snowboarding and summarize the milestones of the sport in a Power Point presentation. Students can then present their project to the class.
 
Additional Notes:
N/A
 
Copyright:
N/A
 
 
 
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Submitted by NBCLearn on Fri, 02/05/2010 - 01:11


Title:

The Science of Snowboarding

Grade Level:

8

Subject:

Science

Author:

NBCLearn

Time:

60 minutes

Lesson Plan Type:

Video,Interactive Instruction

Keywords:

snowboarding, Winter Olympics, physics, half-pipe, tricks, aerials, force, gravity, g-forces, speed, velocity, dynamic balance, dynamic motion, movement, potential energy, kinetic energy, matter, ramps, slopes, snow, surface, contact forces, friction, pumping, legs, height

Brief Description:

Students will explore the physics behind the amazing tricks snowboarders do in the half-pipe, specifically the concepts of gravity, friction, and energy (potential and kinetic). Students will also analyze factors, through a simulation, that make snowboarders go faster and higher on the half pipe.

 


California State Standards Addressed:

Science/8/Focus on Physical Science)2.0

Related Links:

Link 1:
Link 2:

Goal(s):

Students will explore the physics behind the amazing tricks snowboarders do in the half-pipe, specifically the concepts of gravity, friction, and energy (potential and kinetic). Students will also analyze factors, through a simulation, that make snowboarders go faster and higher on the half pipe.

Specific Objectives:

Students will be able to:
  1. Ask scientific questions.
  2. Simulate the “pumping” effect of a snowboarder on the half pipe by using a playground swing.
  3. Identify ways that snowboarders practice when they are not around snow.

Required Materials:

The NBC Learn Video: THE SCIENCE OF SNOWBOARDING!, a copy of the worksheet, “Student Activity: THE SCIENCE OF SNOWBOARDING!”, A playground swing, 1 meter stick taped to a second meter stick end to end, a computer with access to the Internet for research

Anticipatory Set (Lead-in):

Ask students to raise their hands if they have ever been on a snowboard before. Ask students if they have ever seen a snowboard competition before. Discuss answers. Tell students that they are going to learn about the science of snowboarding, which involves the concepts of gravity, friction, and energy. View the NBC Learn Video: THE SCIENCE OF SNOWBOARDING!

Lesson Plan Procedure:

See attached Student Activity Sheet for the procedure.

Closure (Reflect Anticipatory Set):

Write the words gravity, friction and energy on the board. Brainstorm with students on these three words and how they relate to snowboarding. Write brief words under each word to summarize what students say. Next, draw a venn diagram to show each of the three concepts in three circles that overlap one another. Help students place the words they have already brainstormed in the most appropriate place in the diagram.

Plan for Independent Practice:

Ask students to research ways that snowboarders can practice when they are not around snow. Students can work in groups to compile a list of techniques and strategies that snowboarders use when they can’t really use their snowboard on snow. Ask students to include at least one exercise that helps snowboarders when they are off the snowboard. Ask students to present what they found to the rest of the class including a demonstration of the exercise that snowboarders do.

Assessment Based on Objectives:

Begin the next day’s lesson with the quiz, “THE SCIENCE OF SNOWBOARDING!”.

Possible Connections to Other Subjects:

Social Studies/History/Technology: Students can research the history of snowboarding and summarize the milestones of the sport in a Power Point presentation. Students can then present their project to the class.

Adaptations and Extensions:



Additional Notes:

N/A


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