1 / 14

SKATEBOARD SCIENCE

SKATEBOARD SCIENCE. Learning about Mechanics: the physics of motion. By doing this project:. We build skate park obstacles and test them with marble skaters. We also learn how to: keep the marble skater safely on the track reduce loss of energy through friction

eytan
Download Presentation

SKATEBOARD SCIENCE

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. SKATEBOARD SCIENCE Learning about Mechanics: the physics of motion

  2. By doing this project: • We build skate park obstacles and test them with marble • skaters. • We also learn how to: • keep the marble skater safely • on the track • reduce loss of energy through • friction • ensure the marble skater has • enough energy to flow from • one obstacle on to the next

  3. Vocabulary • MECHANICS : The branch of physics that deals with motion. • CONSERVATION OF ENERGY: Energy can neither be created nor destroyed.

  4. Conservation of Energy • Energy is never created nor destroyed. Energy can be transformed from one form to another by various means, but the total energy into the transformation will always be equal to the energy out of the transformation.

  5. Conservation of energy cont’d… • Usually in a transformation, more than one form of energy is produced. For example: When electrical energy is transformed into mechanical energy by a motor, heat energy is also produced. In this case, the electrical energy in will be equal to the mechanical energy and the heat energy out.

  6. TRANSFER OF ENERGY • Energy has been passed from one body to another without change. Example: a pool ball striking another transfers its kinetic energy to the second ball.

  7. Transformation of Energy • Refers to a change in the form of energy. • Example: when a light bulb transforms electrical energy into light energy.

  8. FORCE • Force is a push or pull. It can be applied directly (with a hand) or indirectly (with a magnet) • By itself, a force does not do work, nor does it require energy. Example: a tightrope

  9. KINETIC ENERGY • This refers to moving, mechanical energy. When a rolling marble skater reaches the bottom of the chute it has maximum kinetic energy.

  10. POTENTIAL ENERGY • This refers to stored Mechanical energy. When you move the marble skater to the top of the chute you are storing potential energy.

  11. Potential and Kinetic Energy and the Conservation of Energy • Throughout Skateboard Science you see these ideas work together. When a marble skater is lifted to the top of a chute, a certain amount of potential energy is given to it. As the marble skater rolls down the chute its potential energy is transformed to kinetic energy. At the bottom of the chute, the marble skater has no remaining potential energy because all of it has been transferred to kinetic energy. As a result the marble skater is travelling at high speed. The transformation traded height for speed. This trade is reversed as the marble skater rolls up an obstacle. Speed is traded for height.

  12. FORMS OF ENERGY (ones we are familiar with) • Mechanical • Electrical • Chemical • Heat • Light

  13. FRICTION • The transfer of kinetic energy from one moving body to the atoms matter around it.

  14. INERTIA • The word used to describe the law of physics which states that stopped objects will remain stopped and a moving object tends to maintain its direction and speed.

More Related