H block Energy- 2 truths and a lie by https://padlet.com/jlegendre1/sppb06ddy9dy As a group, post 2 true facts and one lie (in any order) about your topic in the correct column. Each of your statements must pertain to a pendulum. You may use the provided link to help. en-us 2019-01-04 14:15:36 UTC 2019-01-07 19:16:54 UTC hello@padlet.com https://padlet-assets.s3.amazonaws.com/icons/Brightnessdown.png jlegendre1 https://padlet.com/jlegendre1/sppb06ddy9dy/wish/317435176 2019-01-04 14:15:36 UTC https://padlet.com/jlegendre1/sppb06ddy9dy/wish/317435176 jlegendre1 https://padlet.com/jlegendre1/sppb06ddy9dy/wish/317435178 2019-01-04 14:15:36 UTC https://padlet.com/jlegendre1/sppb06ddy9dy/wish/317435178 jlegendre1 https://padlet.com/jlegendre1/sppb06ddy9dy/wish/317435179 2019-01-04 14:15:36 UTC https://padlet.com/jlegendre1/sppb06ddy9dy/wish/317435179 jlegendre1 https://padlet.com/jlegendre1/sppb06ddy9dy/wish/317435181 2019-01-04 14:15:36 UTC https://padlet.com/jlegendre1/sppb06ddy9dy/wish/317435181 jlegendre1 https://padlet.com/jlegendre1/sppb06ddy9dy/wish/317435185 2019-01-04 14:15:36 UTC https://padlet.com/jlegendre1/sppb06ddy9dy/wish/317435185 Work riley_h20 https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318030823 1. It takes work to get the pendulum to move 
2. The work is different if you lift the pendulum up fast or slow
3. Work = Fd]]> 2019-01-07 18:53:49 UTC https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318030823 Mechanical Energy sydney_c19 https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318031249 The pendulum's mechanical energy is always equal to its kinetic energy.

The pendulum is always using mechanical energy as it is swinging back and forth.

The pendulum's mechanical energy is always equal to its kinetic energy plus it's potential energy. 


]]> 2019-01-07 18:54:35 UTC https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318031249 -The highest kinetic energy is at the lowest point of the pendulum's swing https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318031363 -KE=(1/2m)s
-There is a point of the pendulum swing that potential energy and kinetic energy are equal]]> 2019-01-07 18:54:45 UTC https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318031363 https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318031612 1. There's no power when the pendulum is going down.
2. When the pendulum being pulled  up, there's increasing gravitational potential energy.
3. P=t/w]]> 2019-01-07 18:55:06 UTC https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318031612 https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318031843 The highest point is where the greatest amount of potential energy is. ]]> 2019-01-07 18:55:28 UTC https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318031843 https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318032285 the equation is Eg = mgh]]> 2019-01-07 18:56:11 UTC https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318032285 https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318032760 The gravitational potential energy is the greatest when exactly between the highest and lowest points of the pendulum's swing]]> 2019-01-07 18:57:00 UTC https://padlet.com/jlegendre1/sppb06ddy9dy/wish/318032760