Energy & the Roller Coaster
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Transcript Energy & the Roller Coaster
Energy & the Roller Coaster
Question: How is motion on a roller
coaster related to energy?
need
directions
At which place do you think the
marble moves fastest?
Why?
At which place do you think the
marble moves fastest?
Fastest 6,3,2,4,5,1 Slowest
As height decreases, speed increases.
As height increases, speed decreases.
The fastest speed is at the lowest part of the roller
coaster.
Kinetic & Potential Energy
Kinetic energy is the energy an object has when it
is in motion. This kind of energy depends on speed.
Potential energy is stored energy. This energy
depends on how high an object is relative to a
surface.
The Flow of energy between
potential & Kinetic along the roller
coaster.
Before the marble starts, it has mostly
potential energy and no kinetic energy.
The marble’s potential energy becomes
kinetic energy as it rolls downhill.
The Flow of energy between
potential & Kinetic along the roller
coaster.
At the bottom (3), the marble has almost all
kinetic energy an not much potential energy.
The marble’s kinetic energy becomes potential
energy again when it rolls uphill.
The Flow of energy between
Potential & Kinetic along the roller
coaster.
At the top of the hill, the marble once again has mostly
potential energy and not much kinetic energy.
Then, the marble rolls back downhill, and once again its
potential energy becomes kinetic energy.
The marble has the most potential energy at the start
of the track.
The Flow of energy between
potential & Kinetic along the roller
coaster.
The marble is going very fast at the bottom
of the hill.
This is the point where the marble has the
greatest amount of kinetic energy and the
least amount of potential energy.
Energy conservation
When the marble speeds up, it gains kinetic energy
from falling down a hill. Kinetic energy is energy of
motion.
The kinetic energy is converted from the potential
energy (the stored energy) the marble had at the
top of the hill.
Energy conservation
As the marble travels, it trades potential
and kinetic energy back and forth.
This conversion of energy from one form to
another is explained by the law of
conservation of energy.
The law of conservation of energy
Energy can be converted from one form to
another but not created or lost.
The law of conservation of energy.
As one form of energy decreases (potential
energy is related to height) the other form
of energy increases (kinetic energy is
related to speed).
The law of conservation of energy.
There’s a balance in the energy
transformation, not that energy is
increasing.
This is the law of conservation of energy.
Questions
If the roller coaster was shaped like the drawing, list the
numbered positions in order from where the marble has the
fastest speed to where the marble has the slowest speed.