2. Test your ideas using Electric Field Hockey in the Practice mode. Make a table to record your observations about what affects the direction and speed of the puck. Your table should demonstrate that you have run controlled tests with all the variables. It depends on the charge the puck has which determines whether it will be repelled or attracted to the positive and negative balls. Mass also is a factor the less the mass the faster the puck is able to move. How many charges you have near/surrounding the puck is another factor. The more you have in a line the quicker it attracts or repels where you put the charged balls around the puck determines which direction the puck will move.
3. Reflect on your ideas from question #1 and your data from question #2. How do your observations support, dispute or add to your ideas about what affects how charged bodies interact? It supports my theory that the stronger or more chargers you have that are the same, the stronger the the repelling force will be. In opposite the unlike charges are more likely to attract more quickly when you have more opposite charges. The outcome depends on what charge the puck has.
4. As you put charges onto the playing area, arrows appear on the puck.
¢What do you think the arrows on the puck are illustrating? The direction the charged particles will direct the puck. ¢How do the arrows from the positive charges compare and contrast to the ones from the negative balls? The positive charges have arrows pointing away from it, and negative particles have arrows pointing towards it.
¢Investigate how you can use the arrows to predict the motion of the puck. The arrows show the direction the puck will go, and the darkness of the arrows shows the amount of force on the puck.
5. Write an explanation of how you can predict the motion of a charged hockey puck that is moved by other charged pucks. Explain using examples and drawings that include:
¢How to use free body diagrams and vector addition.