energy work power
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Energy Work Power. Textbook Chp 6 pg 103-122. What is Energy?. Energy is the ability to do work Unit: Joules (J). 5 forms of Energy. 3 types of Potential Energy Elastic Potential Energy Chemical Potential Energy Gravitational Potential Energy Kinetic Energy Thermal Energy - PowerPoint PPT PresentationTRANSCRIPT
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Energy Work Power
Textbook Chp 6 pg 103-122
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What is Energy?OEnergy is the ability to do work
OUnit: Joules (J)
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5 forms of EnergyO3 types of Potential Energy
OElastic Potential EnergyOChemical Potential EnergyOGravitational Potential Energy
OKinetic EnergyOThermal EnergyO[All have unit of Joules!]
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Potential EnergyOPotential Energy refers to
energy which is stored to do work later
Othe energy is not doing anything now, but has the potential to do something later
OThere are 3 types of potential energy in your syllabus: elastic, potential and chemical
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Elastic Potential Energy
OElastic Potential Energy is the energy stored when an elastic object is stretched or squeezed.
OE.g. a stretched rubber band
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Chemical Potential Energy
OChemical potential energy is the stored energy which can only be released by chemical reactions
OE.g. battery, food
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Gravitational Potential Energy (GPE)
OGPE is the energy stored due to the height of the object
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Kinetic Energy (KE)OKE refers to the energy of moving objects
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Thermal EnergyOThermal energy is energy
due to heat. OHot objects have high
thermal energyOThermal energy is also
created when a moving object is opposed by friction
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5 forms of EnergyO3 types of Potential Energy
OElastic Potential EnergyOChemical Potential EnergyOGravitational Potential Energy
OKinetic EnergyOThermal Energy
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Principle of Conservation of Energy (CoE)
OEnergy cannot be created or destroyed, but can be converted from one form to another
OThe total energy of an isolated system is constant
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Conversion of EnergyOSince CoE states that energy
cannot be created or destroyed,Owhen one kind of type is lost, it
must be converted to another type of energy
OE.g. if Energy A is being converted to Energy B, we say the Loss in Energy A = Gain in Energy B
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Example 1OAn object falling from a tall
height, ignore air resistanceOGravitation Potential Energy
(GPE) is lostOKinetic Energy (KE) is gainedOloss in GPE = gain in KE
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Example 2OAn object sliding across a flat
rough surfaceOObject becomes slower – KE is lostOWhere is the energy converted to?OMotion against Friction always
results in gain in Thermal EnergyOLoss in KE = Gain in Thermal
Energy
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Example 3OStretched rubber band is
releasedOStretched rubber band has
elastic potential energyOAfter it is released, elastic
potential energy is lostO It starts to move = kinetic
energy is gainedOLoss in Elastic PE = Gain in
KE
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Example 4OAn electric toy car running on
batteriesOToy Car starts to move when
switched onO gain in KE
OBatteries lose energy over timeO loss in Chemical PE
OLoss in Chemical PE = Gain in KE
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Skate Park Demo
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KE and GPEOKE = ½ mv2
Om = mass of objectOv = velocity of object
OGPE = mghOm = mass of objectOg = gravitational field strength,
10 ms-2
Oh= height above the ground
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Common Mistake!!OFor energy equations, the right
side of the equation MUST be in SI Units
OE.g. for GPE = mghOUnits of m must be in kg (not g)OUnits of h must be in m (not
cm)
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Example 5aO An object of mass 5 kg is dropped
from rest. Determine its loss in gravitational potential energy after it has fallen 10m. Ignore air resistance.
O Loss in GPE = mghO = (5)(10)(10)O = 500 J (3 sf)
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Example 5bO What is the KE gained by the object
after it has fallen for 10 m?
O Loss in GPE = Gain in KEO Loss in GPE = 500 JO Gain in KE = 500 J
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Example 5cO What is the velocity of the object
after it has fallen for 10 m?
O KE = 500 JO ½ mv2 = 500O (0.5)(5)v2 = 500O v2 = 200O v = 14.1 ms-1 (3 sf)
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Work DoneO In Physics, work done is to describe
when a force has moved an objectOEquation:OWork Done = Force x Distance
O Distance must be same direction as Force
OSI Units for Work Done is Joules (J)
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Example 6O A force of 5N pushes an object a
distance of 10 m. Determine the work done on the object by the force.
O Work Done = Force x DistanceO = (5)(10)O = 50.0 J (3 sf)
F
10 m
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Example 7aO Lionel exerts 20 N of force holding a
stack of books on his hands. He walks forward for 5 m. What is his work done?
O Ans: zero. force is not in same direction as the distance moved
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Example 7bO Still holding the books, Lionel walks
up a flight of stairs to a height of 4 m. What is his work done?
O Is distance same direction as force? Yes
O Work Done = Force x DistanceO = (20)(4) = 80.0 J (3 sf)
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PowerO A person/machine is said to be
powerful when he can do a lot of work in very little time
O If Zhiyu can study 3 chapters of Physics in 1 hour but Andre can study 4 chapters of Physics in 1 hour, who is the more powerful Physics mugger?
O If Zhiyu studied for 2 hours and Andre studied for 1 hour, who did more work?
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PowerO There are two possible equations for
Power:O Power = Work Done / timeO Power = Energy Spent / timeO Units of Power: Watts (W)
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Example 8O A force of 5N pushes an object a distance
of 10 m for a time of 5 s. Determine the power created by the force.
O Work Done = Force x Distance = (5)(10) = 50 J
O Power = Work Done / TimeO = 50/5 = 10.0 W (3 sf)
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Example 9O An electric heater used 3600 J of
energy in 30 s. What is the power of the heater?
O Power = Energy spent / timeO = 3600/30O = 120 W
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RecapO 5 types of EnergyO Principle of Conservation of EnergyO Conversion of EnergyO GPE = mghO KE = ½ mv2
O Work Done = Force x DistanceO 2 Eqns for Power
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Quiz!!