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Transcript
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 1
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 1: Intro & Energy Transfer
Standards (Learning Targets)
“ I can ---- “
Instructional Strategies
P4.3A-Identifytheformofenergyingivensituations
(e.g.,movingobjects,stretchedsprings,rocksonclis,
energyinfood).(i.e.,giveexamplesofKE,gPE,CPE,
EPE.)
P4.1A - Account for and represent energy into and out
of systems using energy transfer diagrams.
…identifydifferentformsofenergy GuidedNotes
intheworldaroundme
PracticeProblems
GolfBallLab
…createanenergytransfer
diagram
EnergyTransferDiagrams
P4.3C - Explain why all mechanical systems require
an external energy source to maintain their motion.
…explainwhyperpetualmotionis
notpossible.
Classdiscussion
P4.2f - Identify and label the energy inputs,
transformations, and outputs, using qualitative or
quantitative representations, in simple technological
systems (e.g., toaster, motor, hair dryer) to show
energy conservation. (application)
P4.2A - Account for and represent energy transfer and
transformation in complex processes (interactions).
…usetheconservationofenergy
tocreateanenergytransfer
diagram
EnergyTransferDiagrams
…accountforallenergyinagiven
system
EnergyTransferDiagrams
Key Vocabulary
KineticEnergy
PotentialEnergy
ElasticEnergy
MechanicalEnergy
ChemicalEnergy
NuclearEnergy
ThermalEnergy
Gravitational
Energy
Height
Mass
Joules
Energy
Transfer
Efficiency
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 1
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 1: Energy Transfer
Standards (Learning Targets)
“ I can ---- “
Instructional Strategies
P4.3A-Identifytheformofenergyingivensituations
(e.g.,movingobjects,stretchedsprings,rocksonclis,
energyinfood).(i.e.,giveexamplesofKE,gPE,CPE,
EPE.)
P4.1A - Account for and represent energy into and out
of systems using energy transfer diagrams.
…identifydifferentformsofenergy GuidedNotes
intheworldaroundme
PracticeProblems
GolfBallLab
…createanenergytransfer
diagram
EnergyTransferDiagrams
P4.3C - Explain why all mechanical systems require
an external energy source to maintain their motion.
…explainwhyperpetualmotionis
notpossible.
Classdiscussion
P4.2f - Identify and label the energy inputs,
transformations, and outputs, using qualitative or
quantitative representations, in simple technological
systems (e.g., toaster, motor, hair dryer) to show
energy conservation. (application)
P4.2A - Account for and represent energy transfer and
transformation in complex processes (interactions).
…usetheconservationofenergy
tocreateanenergytransfer
diagram
EnergyTransferDiagrams
…accountforallenergyinagiven
system
EnergyTransferDiagrams
Key Vocabulary
KineticEnergy
PotentialEnergy
ElasticEnergy
MechanicalEnergy
ChemicalEnergy
NuclearEnergy
ThermalEnergy
Gravitational
Energy
Height
Mass
Joules
Energy
Transfer
Efficiency
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 3
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 1: Energy Transfer
Standards (Learning Targets)
“ I can ---- “
Instructional Strategies
P4.3A-Identifytheformofenergyingivensituations
(e.g.,movingobjects,stretchedsprings,rocksonclis,
energyinfood).(i.e.,giveexamplesofKE,gPE,CPE,
EPE.)
P4.1A - Account for and represent energy into and out
of systems using energy transfer diagrams.
…identifydifferentformsofenergy GuidedNotes
intheworldaroundme
PracticeProblems
GolfBallLab
…createanenergytransfer
diagram
EnergyTransferDiagrams
P4.3C - Explain why all mechanical systems require
an external energy source to maintain their motion.
…explainwhyperpetualmotionis
notpossible.
Classdiscussion
P4.2f - Identify and label the energy inputs,
transformations, and outputs, using qualitative or
quantitative representations, in simple technological
systems (e.g., toaster, motor, hair dryer) to show
energy conservation. (application)
P4.2A - Account for and represent energy transfer and
transformation in complex processes (interactions).
…usetheconservationofenergy
tocreateanenergytransfer
diagram
EnergyTransferDiagrams
…accountforallenergyinagiven
system
EnergyTransferDiagrams
Key Vocabulary
KineticEnergy
PotentialEnergy
ElasticEnergy
MechanicalEnergy
ChemicalEnergy
NuclearEnergy
ThermalEnergy
Gravitational
Energy
Height
Mass
Joules
Energy
Transfer
Efficiency
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 4
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 2: Motion
Standards (Learning Targets)
“ I can ---- “
Instructional Strategies
P2.1A-Calculatetheaveragespeedofanobjectusing …calculateaveragespeed,given
positionandelapsedtime.
thechangeofpositionandelapsedtime.
P2.1C - Create line graphs using measured values of
position and elapsed time.
…createalinegraph,givenvalues
ofpositionandtime.
P2.1D - Describe and analyze the motion that a
position-time graph represents, given the graph.
…describethemotionofa
position-timegraph.
P2.2A - Distinguish between the variables of distance,
displacement, speed, velocity, and acceleration.
…explainthedifferencebetween
distance,displacement,speed,
velocity,andacceleration.
…describethemotionofavelocitytimegraph,giventhegraph.
P2.2C - Describe and analyze the motion that a
velocity-time graph represents, given the graph.
Key Vocabulary
Acceleration
AverageSpeed
CircularMotion
Constant
Acceleration
Displacement
FrameofReference
GuidedNotes
Practiceproblems
DisplacementLabActivity
GuidedNotes
Practiceproblems
DisplacementLabActivity
GuidedNotes
Practiceproblems
DisplacementLabActivity
GuidedNotes
Practiceproblems
ClassDemonstration
GuidedNotes
Practiceproblems
DisplacementLabActivity
Function
Graph
LinearMotion
Motion
RelativeMotion
Scalar
Speed
Time
Motiondiagram
Position
Vector
Velocity
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 5
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 2: Motion
Standards (Learning Targets)
“ I can ---- “
Instructional Strategies
P2.1B-Representthevelocitiesforlinearandcircular
motionusingmotiondiagrams(arrowsonstrobe
pictures).
P2.1g - Solve problems involving average speed and
constant acceleration in one dimension.
…createstrobediagramsof
differentformsofmotion.
…calculatespeed,time,or
accelerationinonedimension.
StrobeDemonstration
GuidedNotes
MotionDiagrams
GuidedNotes
PracticeProblems
P2.2B - Use the change of speed and elapsed time to
calculate the average acceleration for linear motion.
…calculateaccelerationforlinear
motion.
GuidedNotes
PracticeProblems
P2.2e - Use the area under a velocity-time graph to
calculate the distance traveled and the slope to
calculate the acceleration.
P2.3a - Describe and compare the motion of an object
using different reference frames.
…canfindtheareaundertheline
segmentofagraph.
…calculatetheslopeofaline.
…describemotionindifferent
framesofreference.
GuidedNotes
PracticeProblems
Key Vocabulary
Acceleration
AverageSpeed
CircularMotion
Constant
Acceleration
Displacement
FrameofReference
ClassDiscussion
Function
Graph
LinearMotion
Motion
RelativeMotion
Scalar
Speed
Time
Motiondiagram
Position
Vector
Velocity
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 6
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 2: Motion
Standards (Learning Targets)
“ I can ---- “
P2.2g-Applytheindependenceoftheverticaland
horizontalinitialvelocitiestosolveprojectilemotion
problems.
…solveprojectilemotionproblems
bybreakingthemdowninto
verticalandhorizontal
components
Key Vocabulary
Acceleration
AverageSpeed
CircularMotion
Constant
Acceleration
Displacement
FrameofReference
Instructional Strategies
MythBustersvideoonindependenceofaxis
PracticeProblems
InquiryLabs
Data-CollectionLab
Function
Graph
LinearMotion
Motion
RelativeMotion
Scalar
Speed
Time
Averagespeed
Averageacceleration
Verticalvelocity
Horizontalvelocity
Motiondiagram
Position
Vector
Velocity
Projectilemotion
Projectile
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 7
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 2: Motion
Standards (Learning Targets)
“ I can ---- “
P2.2g-Applytheindependenceoftheverticaland
horizontalinitialvelocitiestosolveprojectilemotion
problems.
…solveprojectilemotionproblems
bybreakingthemdowninto
verticalandhorizontal
components
P2.3a - Describe and compare the motion of an object
using different reference frames.
…describemotionindifferent
framesofreference.
Key Vocabulary
Acceleration
AverageSpeed
CircularMotion
Constant
Acceleration
Displacement
FrameofReference
Instructional Strategies
MythBustersvideoonindependenceofaxis
PracticeProblems
InquiryLabs
Data-CollectionLab
LaboratoryInvestigations
Function
Graph
LinearMotion
Motion
RelativeMotion
Scalar
Speed
Time
Averagespeed
Averageacceleration
Verticalvelocity
Horizontalvelocity
Motiondiagram
Position
Vector
Velocity
Projectilemotion
Projectile
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 8
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 2.5: Projectile Motion
Standards (Learning Targets)
“ I can ---- “
P2.2g-Applytheindependenceoftheverticaland
horizontalinitialvelocitiestosolveprojectilemotion
problems.
…solveprojectilemotionproblems
bybreakingthemdowninto
verticalandhorizontal
components
P3.4e - Solve problems involving force, mass, and
acceleration in two-dimensional projectile motion
restricted to an initial horizontal velocity with no
initial vertical velocity (e.g., a ball rolling on a table).
…useNewton’sLawstosolve
ProjectileMotionProblems
Key Vocabulary
Position
Velocity
Averagespeed
Averageacceleration
Verticalvelocity
Horizontalvelocity
Projectilemotion
Projectile
Accelerationduetogravity
Proportional
NetForce
Inverselyproportional
Instructional Strategies
MythBustersvideoonindependenceofaxis
PracticeProblems
InquiryLabs
Data-CollectionLab
LaboratoryInvestigations
Mass
Two-dimensional
projectilemotion
Inclinedplane
Free-bodydiagrams
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 9
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 2.5: Projectile Motion
Standards (Learning Targets)
“ I can ---- “
P2.2g-Applytheindependenceoftheverticaland
horizontalinitialvelocitiestosolveprojectilemotion
problems.
…solveprojectilemotionproblems
bybreakingthemdowninto
verticalandhorizontal
components
P3.4e - Solve problems involving force, mass, and
acceleration in two-dimensional projectile motion
restricted to an initial horizontal velocity with no
initial vertical velocity (e.g., a ball rolling on a table).
…useNewton’sLawstosolve
ProjectileMotionProblems
Key Vocabulary
Position
Velocity
Averagespeed
Averageacceleration
Verticalvelocity
Horizontalvelocity
MythBustersvideoonindependenceofaxis
PracticeProblems
InquiryLabs
Data-CollectionLab
MythBustersvideoonindependenceofaxis
PracticeProblems
InquiryLabs
Data-CollectionLab
Projectilemotion
Projectile
Accelerationduetogravity
Proportional
NetForce
Inverselyproportional
Instructional Strategies
Mass
Two-dimensionalprojectile
motion
Inclinedplane
Free-bodydiagrams
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 10
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 2.5: Projectile Motion
Standards (Learning Targets)
“ I can ---- “
P2.2g-Applytheindependenceoftheverticaland
horizontalinitialvelocitiestosolveprojectilemotion
problems.
…solveprojectilemotionproblems
bybreakingthemdowninto
verticalandhorizontal
components
P3.4e - Solve problems involving force, mass, and
acceleration in two-dimensional projectile motion
restricted to an initial horizontal velocity with no
initial vertical velocity (e.g., a ball rolling on a table).
…useNewton’sLawstosolve
ProjectileMotionProblems
Key Vocabulary
Position
Velocity
Averagespeed
Averageacceleration
Verticalvelocity
Horizontalvelocity
Projectilemotion
Projectile
Accelerationdueto
gravity
Proportional
NetForce
Inversely
proportional
Instructional Strategies
MythBustersvideoonindependenceofaxis
PracticeProblems
InquiryLabs
Data-CollectionLab
MythBustersvideoonindependenceofaxis
PracticeProblems
InquiryLabs
Data-CollectionLab
Mass
Two-dimensional
projectilemotion
Inclinedplane
Free-body
diagrams
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 11
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 3: Dynamics
Standards (Learning Targets)
“ I can ---- “
Instructional Strategies
P3.2A-Identifythemagnitudeanddirectionof
everydayforces(e.g.,wind,tensioninropes,pushes
andpulls,weight).
P3.2C - Calculate the net force acting on an object.
…identifyeverydayforce
ClassDiscussion
GuidedNotes
…calculateNetForce,usingF=m*a
P3.3A - Identify the action and reaction force from
examples of forces in everyday situations (e.g., book
on a table, walking across the floor, pushing open a
door).
P3.4A - Predict the change in motion of an object
acted on by several forces.
…identifyaction/reactionpairs
GuidedNotes
PracticeProblems
Guidednotes
ClassDiscussion
…predictthefinalmotionofan
objectactedonbymultipleforces
GuidedNotes
PracticeProblems
P3.4C - Solve problems involving force, mass, and
acceleration in linear motion (newton’s Second law).
…useNewton’sLaws
GuidedNotes
PracticeProblems
Key Vocabulary
acceleration
action/reaction
forces
atoms
directionofaforce
electricforce
changeinspeed
electromagnetic
force
equal&opposite
force
Fnet=ma
contactforces
force
changeindirection
forcesata
distance
friction
magnitudeofaforce
Proportional
vector
mass
scalar
weaknuclearforce
gravitationalforce molecules
speed
weight
inversesquare
law
inversely
proportional
linearmotion
netforce
strongnuclearforce Newton’sFirstLaw
tension
Newton’sSecondLaw
velocity
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 12
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 3: Dynamics
Standards (Learning Targets)
“ I can ---- “
Instructional Strategies
P3.2A-Identifythemagnitudeanddirectionof
everydayforces(e.g.,wind,tensioninropes,pushes
andpulls,weight).
P3.2C - Calculate the net force acting on an object.
…identifyeverydayforce
GuidedNotes
PracticeProblems
…calculateNetForce,usingF=m*a
GuidedNotes
PracticeProblems
P3.3A - Identify the action and reaction force from
examples of forces in everyday situations (e.g., book
on a table, walking across the floor, pushing open a
door).
P3.4A - Predict the change in motion of an object
acted on by several forces.
…identifyaction/reactionpairs
GuidedNotes
PracticeProblems
…predictthefinalmotionofan
objectactedonbymultipleforces
GuidedNotes
PracticeProblems
P3.4C - Solve problems involving force, mass, and
acceleration in linear motion (newton’s Second law).
…useNewton’sLaws
GuidedNotes
PracticeProblems
Key Vocabulary
acceleration
action/reaction
forces
atoms
directionofaforce
electricforce
changeinspeed
electromagnetic
force
equal&opposite
force
Fnet=ma
contactforces
force
changeindirection
forcesata
distance
friction
magnitudeofaforce
Proportional
vector
mass
scalar
weaknuclearforce
gravitationalforce molecules
speed
weight
inversesquare
law
inversely
proportional
linearmotion
netforce
strongnuclearforce Newton’sFirstLaw
tension
Newton’sSecondLaw
velocity
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 13
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 3: Dynamics
Standards (Learning Targets)
“ I can ---- “
Instructional Strategies
P3.2A-Identifythemagnitudeanddirectionof
everydayforces(e.g.,wind,tensioninropes,pushes
andpulls,weight).
P3.2C - Calculate the net force acting on an object.
…identifyeverydayforce
GuidedNotes
PracticeProblems
…calculateNetForce,usingF=m*a
P3.3A - Identify the action and reaction force from
examples of forces in everyday situations (e.g., book
on a table, walking across the floor, pushing open a
door).
P3.4A - Predict the change in motion of an object
acted on by several forces.
…identifyaction/reactionpairs
GuidedNotes
PracticeProblems
GuidedNotes
PracticeProblems
…predictthefinalmotionofan
objectactedonbymultipleforces
GuidedNotes
PracticeProblems
P3.4C - Solve problems involving force, mass, and
acceleration in linear motion (newton’s Second law).
…useNewton’sLaws
GuidedNotes
PracticeProblems
Key Vocabulary
acceleration
action/reaction
forces
atoms
changeindirection
changeinspeed
contactforces
directionofaforce
electricforce
forcesatadistance
friction
electromagneticforce gravitationalforce
equal&opposite
inversesquarelaw
force
Fnet=ma
inversely
proportional
force
linearmotion
magnitudeofaforce
mass
Proportional
scalar
molecules
netforce
speed
weight
strongnuclearforce Newton’sFirstLaw
tension
Newton’sSecondLaw velocity
vector
weaknuclearforce
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Unit 4: Momentum
Week: 14
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Standards (Learning Targets)
“ I can ---- “
Instructional Strategies
P3.4g-Explainhowthetimeofimpactcanactthenet …calculateforce,andchangeof
momentum.
force(e.g.,airbagsincars,catchingaball).
….Explainwhatimpulseis
P3.5a - Apply conservation of momentum to solve
…solveproblemsinvolving
simple collision problems.
multiplemassesandspeeds
GuidedNotes
PracticeProblems
In-ClassDemonstration
GuidedNotes
PracticeProblems
P3.3b - Predict how the change in velocity of a small
….solvesimplecollisionproblems GuidedNotes
mass compares to the change in velocity of a large
withconservationofmomentum. PracticeProblems
mass when the objects interact (e.g., collide).
ClassDiscussion
P3.3c - Explain the recoil of a projectile launcher in
…useconversavtionofmomentum GuidedNotes
terms of forces and masses. (application)
toexplainrecoiland“kickback”
PracticeProblems
P3.3d - Analyze why seat belts may be more important …usetheknowledgeofmomentum ClassDiscussion
in autos than in buses. (application)
toexplainwhybussesdon’thave
seatbelts.
Key Vocabulary
Acceleration
Averagevelocity
Changeinvelocity
Collision
Fnet=ma
Inversely
proportional
LawofConservationof
Momentum
Mass
Momentum
NetForce
Newton’sSecondLaw
Newton’sThirdLaw
Projectile
Proportional
Vector
Velocity
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 15
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 4: Momentum
Standards (Learning Targets)
“ I can ---- “
P3.4g-Explainhowthetimeofimpactcanaffectthe
netforce(e.g.,airbagsincars,catchingaball).
…Icanexplainwhyweneedair
bags
….Explainwhatwillhappenina
collision,usingconservationof
momentum
P3.3b - Predict how the change in velocity of a small
….Explainwhatwillhappenina
mass compares to the change in velocity of a large
collision,usingconservationof
mass when the objects interact (e.g., collide).
momentum
P3.3c - Explain the recoil of a projectile launcher in
….Explainwhatwillhappenina
terms of forces and masses. (application)
projectile,usingconservationof
momentum
P3.3d - Analyze why seat belts may be more important ….explainwhyabusdoesn’thave
in autos than in buses. (application)
seatbelts
P3.5a - Apply conservation of momentum to solve
simple collision problems.
Key Vocabulary
Acceleration
Averagevelocity
Changeinvelocity
Collision
Fnet=ma
Inversely
proportional
Lawof
Conservationof
Momentum
Mass
Momentum
NetForce
Newton’sSecond
Law
Newton’sThird
Law
Instructional Strategies
GuidedNotes
PracticeProblems
In-ClassDemonstration
GuidedNotes
PracticeProblems
GuidedNotes
PracticeProblems
ClassDiscussion
GuidedNotes
PracticeProblems
ClassDiscussion
Projectile
Proportional
Vector
Velocity
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 16
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 5: Periodic Motion
Standards (Learning Targets)
“ I can ---- “
P2.1h-Identifythechangesinspeedanddirectionin
everydayexamplesofcircular(rotationand
revolution),periodic,andprojectilemotions.
P2.1F - Distinguish between rotation and revolution
and describe and contrast the two speeds of an object
like the Earth. (application)
P2.2D - Explain how uniform circular motion involves
acceleration without a change in speed.
….differentiatebetweenrotation,
revolution,periodicmotion,and
projectilemotion.
….differentiatebetweenrotation,
revolution,periodicmotion,and
projectilemotion.
…explainwhataccelerationis
P2.2f - Describe the relationship between changes in
position, velocity, and acceleration during periodic
motion.
P3.4D - Identify the force(s) acting on objects moving
with uniform circular motion (e.g., a car on a circular
track, satellites in orbit). (Links to Unit 6, Gravity)
….describewhatisgoingtonin
periodicmotion
Key Vocabulary
Acceleration
Averageacceleration
Averagespeed
Circularmotion
Direction
Ellipticalorbit
Force
Gravitation
InverseSquareLaw
LawofUniversal
Gravitation
Magnitude
Mass
Instructional Strategies
GuidedNotes
PracticeProblems
ClassDiscussion
GuidedNotes
ClassDiscussion
GuidedNotes
PracticeProblems
…identifyforcesincircularmotion ClassDiscussion
GuidedNotes
Motion
Netforce
Orbitalmotion
Periodicmotion
Revolution
Rotation
Speed
Time
Velocity
Position
Projectile
Uniformcircularmotion Vector
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 17
Evidence of Learning/Assessments:
Weekly Socrative Quiz, Unit Test
Unit 5: Periodic Motion
Standards (Learning Targets)
“ I can ---- “
Instructional Strategies
P2.1h-Identifythechangesinspeedanddirectionin
everydayexamplesofcircular(rotationand
revolution),periodic,andprojectilemotions.
P2.1F - Distinguish between rotation and revolution
and describe and contrast the two speeds of an object
like the Earth. (application)
P2.2D - Explain how uniform circular motion involves
acceleration without a change in speed.
….differentiatebetweenrotation,
revolution,periodicmotion,and
projectilemotion.
….differentiatebetweenrotation,
revolution,periodicmotion,and
projectilemotion.
…explainwhataccelerationis
GuidedNotes
PracticeProblems
ClassDiscussion
P2.2f - Describe the relationship between changes in
position, velocity, and acceleration during periodic
motion.
P3.4D - Identify the force(s) acting on objects moving
with uniform circular motion (e.g., a car on a circular
track, satellites in orbit). (Links to Unit 6, Gravity)
….describewhatisgoingtonin
periodicmotion
GuidedNotes
PracticeProblems
ClassDiscussion
GuidedNotes
Key Vocabulary
Acceleration
Averageacceleration
Averagespeed
Circularmotion
Direction
Ellipticalorbit
Force
Gravitation
InverseSquareLaw
LawofUniversal
Gravitation
Magnitude
Mass
…identifyforcesincircularmotion
GuidedNotes
ClassDiscussion
Motion
Netforce
Orbitalmotion
Periodicmotion
Revolution
Rotation
Speed
Time
Velocity
Position
Projectile
Uniformcircularmotion Vector
Instructor: Mike Maksimchuk
Course/Grade Level: Physics A
Week: 18
Evidence of Learning/Assessments:
End of Semester - Final Examination
Final Exam Review & Final Exams
Standards (Learning Targets)
“ I can ---- “
Key Vocabulary
Instructional Strategies