energy. potential energy (pe) or kinetic energy (ke) all energy can be in one of two forms:
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Potential energy (PE) or
Kinetic energy (KE)
All energy can be in one of two forms:
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Potential energy is stored energy--energy ready to go.
Examples: A lawn mower filled with gasoline, a car on top of a hill, and students waiting at a bus stop are all examples of potential energy.
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Types of potential energy include:
Gravitational potential energy- energy related to an object’s heightElastic potential energy- energy associated with objects being stretched (like a rubber band) or compressed (like a spring)
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Gravitational Potential Energy
The rock climbers have gravitational potential energy
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Elastic Potential EnergyThe energy stored in a stretched object, such as the trampoline, is elastic potential energy. Rank the amount of elastic potential energy of the trampoline from greatest to least
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Types of potential energyWhich is elastic and which is gravitational?
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Most of the energy under our control is in the form of potential energy. Potential energy can be viewed as motion waiting to happen. When the motion is needed, potential energy can be changed into kinetic energy.
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Kinetic energy is energy at work--energy of motion
Examples: A lawn mower cutting grass, a car racing down a hill, and students running home from school are examples of kinetic energy.
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Factors that affect KE include:
Speed- the faster an object moves, the more kinetic energy it hasMass- kinetic energy increases as mass increases
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Kinetic EnergyThe kinetic energy of an object depends on its speed and mass.
Greatest KE More
mass more speed
2nd Greatest KE-- More Mass, Not as much speed
Least KE-Least mass, same
speed as blue
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Which has more kinetic energy, a bird or a plane? Why?
A plane has more kinetic energy than a bird because it moves faster and has a greater mass.
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We have often heard phrases like, "Conserve energy; turn off the lights." To scientists, conservation of
energy is something
entirely different.
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The Law of Conservation of Energy states that the total amount of energy in a system remains constant ("is conserved") before and after a transformation….so in other words, energy cannot be created or destroyed.
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That's really what we mean when we say we are "using" energy. The law of conservation of energy means that when energy is being used, it is not being used up. Instead, it is being changed from one form into another. Transformation between potential and kinetic energy is one of the most common energy transformations.
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In which position does the girl have the greatest
PE?
In which position does the girl have the greatest KE?
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In which position does the girl have the greatest
PE? AIn which
position does the girl have the greatest
KE? B
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Describe each position:
A The ball has great KE when it is thrown
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Describe each position:
B The ball’s PE is maximum
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Describe each position:
C The ball is reaching max KE
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Describe each position:
D The ball is losing PE & gaining KE again
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A pendulum is a perfectobject to use to show the transfer of PE to KE to PE to KE to PE to KE to PE to KEto PE to KE…get the picture?
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Figure 1: Illustration of potential energy being converted into kinetic energy using water; Here, the kinetic energy is in the form of gravity accelerating water, which could be rapids, cascades, or even a waterfall!
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Figure 2: Illustration of potential energy being converted into kinetic energy using a roller coaster; Here, the kinetic energy is in the form of a zooming roller coaster moving fast enough under the influence of gravity to make it through the 360-degree loop
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Do you know why the first hill of a roller coaster always has to be the tallest?
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Some energy is transformed to thermal energy so the ride does not have enough energy to make it up a hill that tall again.
So what is thermal energy?
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Thermal Energy
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All substances are made up of small particles called atoms. Atoms are in constant motion.
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Thermal energy is the total energy of all particles in an object. Thermal energy is a
form of KE.
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The amount of thermal energy depends upon the following:
Temperature of object- the higher the temperature = more thermal energy Number of particles- more particles (mass) = more thermal energy
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How should the bottom diagram be completed to show three pies with more thermal energy than the first?
In the top two diagrams, which chicken pot pie contains more thermal energy?
Higher Temperat
ure
More Particles
More particles
200
Higher Temp300
More Particles
200
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Heat is the transfer of thermal energy from a warmer object to a cooler object (always in this direction!)
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The warm object cools down & the cooler object warms up until their temperatures are equal. Demonstration here
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There are three methods of energy transfer:
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Conduction- the transfer of heat from one particle to another within an object or between two objects.
Examples: touching the handle of a hot pan, holding an ice cube in your hand, cooking an egg in a frying pan, and standing on the hot beach sand
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Convection- the transfer of heat in fluids, such as air and water, using convection currents
Examples: warming your hands by the fire place, heating a can of soup on the stove, and heating your home
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Radiation- the transfer of energy by electromagnetic waves. Radiation doesn’t require matter (atoms) to travel through.
Examples: Sun’s energy traveling through empty space and feeling the heat on your face at a bonfire
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As thermal energy increases, particles spread out causing substances to expand, this is known as thermal expansion.
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Conductors- materials that conduct heat well, i.e. metals
Insulators- materials that do NOT conduct heat well, i.e. wool and Styrofoam
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Heat transfer goes on all around you all the time, even on the beach.
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Heat transfer goes on all around you all the time, even on the beach.
convection
radiation
conduction