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Static Electricity
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Transcript of Static Electricity
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Static Electricity
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What does the term static mean?
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Not in motion
Electricity?
Involves electrons
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Atomic model positively charged nucleus (protons)
negatively charged electrons
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Outer Part Elementary Chargeelectrons e- –1
NucleusProtons p+ +1neutrons no 0
Neutral objects have same # p+ & e-.
Charged objects have net p+ or e-
Notation
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When objects have excess or deficit of charge, can exert
electrostatic force.
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When objects have excess or deficit of charge, can exert electrostatic force.
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Charged objects supply a force.Proof?
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In solids,
Charge transferred by e- only.
How can we get positive charge object?
Loss of e-.
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Uncharged objects can feel electrostatic force too:
by polarization
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PolarizationAtoms can be polarized by redistributing e-. Polarization is separation of charge not imbalance.
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Charged balloon causes wall to become polarized.
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Conservation Law applies to charge
Although charge ( e-) can be transferred, charge cannot be created or destroyed.
Sum of charges in system remains the same. For polarization the system is the balloon and the wall.
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2 types of materials.
• Conductors – allow charges to move around – can be polarized.
• Insulators – hold excess charge in place – hard to polarize.
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Conductors – materials that allow e- to move freely often redistribute charge.
Metals are good conductors.
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Metal conductors distribute charge uniformly.
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Insulators – charges do not move freely. Tend to stay concentrated
in one spot on object.
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What’s happening here?
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Water Stream
• Try at home.
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Polarization produces only a surface charge.
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Charging Objects:
• 1. Friction – rub 2 neutral objects together.
• Conduction - Contact with charged object.
• Induction – by bringing charged object in vicinity of neutral conductor.
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Friction
Works for insulators and conductors.
Do objects get same or opposite charge?
Opposite!
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Why you get a shock.
• Charge yourself transfer e- either to or from your body to neutralize your charge. Always accompanied by E release.
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Conduction: touch charged object to neutral object.
Do objects get same or opposite charge?
SAME!
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Static Electricity 9:15 min.
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http://www.youtube.com/watch?v=A893_7FGMHY&feature=relmfu
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Induction- – no touching of objects. Need to polarize & separate them.
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Charging by induction conductors only.
A ground can serve as an infinite source or sink of e-.
Earth, your hand, floor, wall.
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Charge an Electroscope by Induction
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Charging By Induction 9:30 Min.
• http://www.youtube.com/watch?v=pJ36EtABLAk
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Hwk Read Tx 17-1Answer pg 633 #1-2, 4-6
pg 654 #1-10 not 3Type or write it all including
questions.
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How do we measure amount of charge?
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1. Elementary Charge
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Conductors will share elementary charges equally if they are allowed to touch.
Example:
1. The elementary charge of each metal sphere below is shown. If they are allowed to touch, and are then separated, what will be the charge on each?
+3 -6 -9
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Total charge 3 – 6 – 9 = - 12
They will share the total charge so - 12/3 spheres = -4 charges each.
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Determining Charge on electron.
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1909 Robert Millikan measured charge on e-
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Millikan 1:15
http://www.youtube.com/watch?v=XMfYHag7Liw
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Robert Millikan found charge is quantized. There is a smallest unit of charge.
Charge can only exist in whole number integers of the charge on 1e-. Cannot have in between numbers.
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Can an object have a charge of 3.53 x 10-19C?
• No.
• 3.53 x 10-19C ÷ 1.6 x 10-19 C = 2.2.
• Charges must be whole number integrals of 1.6 x 10-19 C .
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Units of charge = coulombs (C) Charge on e- is -1.6 x 10-19 C
Charge on p+ is +1.6 x 10-19 C
or can consider fundamental units e- has charge –1p+ has charge +1
Charge Units
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It takes 6.25 x 1018 elementary charges (e- or p+) to carry 1 C of charge.
Take the inverse of 1.6 x 10-19C.
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2. What would be the charge on an object with 2.2 x 1015 excess electrons?
3.52 x 10-4 C
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3. How many protons does it take to carry 0.001 C of charge?
6.25 x 1015 p+
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4. What is the total charge (in C) on 6.2 x 108 electrons?
• 9.9 x 10 -11 C
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5. A metal sphere with an excess of 2 x 109 electrons is connected to a sphere with a deficit of 1 x 109 electrons.
• What is the charge in Coulombs on each sphere before they’re connected?
• What is the charge in Coulombs on each after they’ve been connected?
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Electrostatic Force
Charles Coulomb measured force exerted on one charged object by another.
He used torsion balance.
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Coulomb’s Torsion Balance
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Coulomb’s Law Relates Force btw. 2 charged objects.
Fe = kq1q2 r2
k = constant 8.99 x 109 N m2/C2. q charge on obj in Coulombs (C)r is dist in meters.F is force (N)
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Ex 1: An alpha particle is a nucleus with 2 protons and 2 neutrons. It is near a proton.
1. What is the charge in Coulombs of each?
2. They are separated by a distance of 3 nm. What is the force between them?
3. Is the force repulsive or attractive?47
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• nucl = 3.2 x 10-19 C.
• p+ = 1.6 x 10-19 C.
• F = 5.11 x 10-11 N
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2: Two protons are 0.025 m apart. Calculate:
a) the gravitational attraction between them.
B) the electrostatic force between them.
C) what is the ratio between the forces.
D) What do you think the sign + or – indicates for electrostatic force?
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Hwk read text 17 -2 and pg 634 – 636
• Do pg 636 #1-4 and pg 654 #1, 2, 6, 10.
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Textbook ProbsHwk read 17 -2 and pg 634 – 636
Read 634 – 636. Peruse example prb.
Do:
•Pg 636 # 1 – 4 Show equations and work.
•& pg 655 #16-19.
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Mech Universe “Static Electricity”
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Electric Fields
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Electric Fieldsregion of space around charged
object where a “test charge” feels an electrostatic force.
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Electric Fields-Charge alters space around it. Charged objects feel a force.
Either repulsion or attraction.
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Electric Field (E) defined as:The force and direction a small positive “test” charge feels in presence of field created by a larger charge Q.
E = F/q.
E = Electric Field (N/C)F is force on test charge (N).q is amt of charge on test charge (C).
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Ex 1: A charge of 2 C feels a force of 10 N in an electric field. What is the field strength at that point.
E = F/q. = 10 N
2 C
E = 5 N/C
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Ex 2: How much force does a test charge with + 0.4 C feel in a field of 8 N/C?
• E = Fe/q
• Fe = qE
• 0.4 C x 8 N/C = 3.2 N.
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Ex 3. An electron is placed in a field of 100 N/C.
a. What is the force on the electron?
b. What is the acceleration of the electron?
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Electric Field Strength is Inversely Proportional to Distance Around a
Point Charge.
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Sketching Electric Fields
• Do Now
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Field Lines represent electric fields.
Electric field lines show the force that a small positive test charge feels in a field created by a much larger charge. They represent the strength and direction of the field.
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Sketch vectors to show force magnitude& direction on a + test charge at each point.
+
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Field around positive object.
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The denser the field lines are, the stronger the field.
Stronger field near charge.
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What are the field lines now?
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What if field was formed between parallel plates? Sketch it.
+++++
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Field Between Parallel Plates
How would the strength of the field vary if a charge moves from the + to the – plate?
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Fields have strength and direction.
Density of lines shows strength.Direction shown as arrows.
Direction is determined by a + test charge.
Electric Field lines don’t touch or cross.
Lines start on + end on neg.
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Electric field due to more than one charge.
Field is stronger near the larger charge. Density of lines show the increased
strength.
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E field due to more than one charge.
Force due to more than one charge is the vector sum of all the forces on a charged particle.
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Electrostatic Equilibrium
Fields produced by more that a single charge will have spots where the forces on a charge in the field will be balanced.
F net = 0.
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Film Mech Universe E fields.15 minutes.
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• Review Elec Field youtube lesson kahn.
• http://www.youtube.com/watch?v=vaDT4GwAZ2I&feature=relmfu
Hwk elect field wksht andAnd Rev book 206 #2, 4, 7,9,
10-15, 24-25, 30-34
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Work & EnergyElectric Potential
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Do Now.
• 1. Define gravitational PE.
• 2. How is Energy related to work. Explain.
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• Coulomb’s Law between 2 charged objects:
Fe = kq1q2.
r 2
• As region of space.
• Electric Field
Fe = qE
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We discussed Force due to charges in 2 ways?
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• What is the definition of Energy?
• Things that have E can do work.
• When work is done on an object it gains energy.
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Do Charged particles in an electric field can have Energy?
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Voltage Potential
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It takes work to move charges in a field.
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Where does a positive test charge have more PE – close to or far from a large positive sphere?
++
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The amt of work done on every coulomb of charge moving it is called electric potential, V.
V = W/q. W work in Jq is charge in C.V is Volts = J/C.
V defines the potential at P at a point.
P is like a particular height in a gravity field.
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Ex 1. It takes 150 x 10-6 J to move a 2.0 C charge to point P. What is the electric potential (voltage) at P?
V = W/q = 150 x 10-6J = 75 V
2 x 10-6C
How much PE did every C of charge gain?
75 J
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To find PE or work done by E field:
Since W = PE and V = W/q:
PE elc = qV also W = qV.
PE – JoulesQ – CoulombsV = Volts
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Ex 2. The electric potential at point P is 12.0 V.
A 3C charge is placed at P. What is the PE of q at P?
PE = W = qV
(3 C)(12 V) = 36 J
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Ex 2b. If q = -2 C is moved to a point P = 12 V, What is the PE of q?
PE = qV
• (-2 C)(12 V) = -24 J
• q lost PE, the field did work on it. Think of the charge as falling.
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Potential DifferenceVolage Dif betw 2 points in field ~ heightEnergy Dif involves moving charge in field = qV
A = 13 VB = 28 V
pd = 28V – 13V = 15 V.
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Potential Difference in a Uniform Field.
The field intensity F/q between plates is constant, the work done (Fd) to move a charge
between plates is constant, the potential difference (voltage) is constant.
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Ex 3: What work must be done to move a +5 C charge from the – to the + plate in the 250 V pd across plates?
W = q V = (5 x 10-6C)(250 J/C - 0)
= 1.25 x 10-3J.
250 V
It helps to assume 1 plate is 0, the other is 250 Volts.
250 0 V
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Moving Charges in Fields.
As a charge moves thru a field, its total E (the E) is constant. By consv of Energy.
If a charges “falls” toward the oppositely charged plate its PEelc decreases, What increases?
KE
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Is acceleration between parallel plates uniform? Explain.
• Work done by field will accelerate charge: W = KE = qV.
• So: before after
• ET = ET .
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Uniform Electric FieldsParallel Plates
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There is a potential difference – voltage between the two plates based on their charge & distance between them.
A +q near the positive plate is at a high potential (E).
What is the potential of a proton stuck to the negative plate? (0)
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How can I calculate PE of a mass in a gravity field?
• PEg = mgh
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How can I calculate PE of a charge q in an Electric field?
• PEelc = qV.
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Prove that V = Ed in uniform field
V = W/q = Fd/q but F/q = E
So
V = Ed
For parallel plates.96
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Hwk
• Reg Prob set “Intro to Voltage”.
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http://www.youtube.com/watch?v=F1p3fgbDnkY&list=UUN7TW2MSHt-VLT04z_-t2rg&index=13
Old but good Voltage Clip 9:36 min.
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Define
• Gravitational Field
• Electric Field
• Electric Potential
• Electric Potential Difference
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The electron-volt: unit of work & E.
For very small changes in PEelc (on the order of 10-
19J) unit eV is used.
The electron-volt, eV, is the work & E required to push 1 e- (or p+) through a voltage of 1V.
W = qV = (1.6 x 10-19 C)(1V) = 1.6 x 10-19 J = eV.
1.6 x 10-19 J = eV
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If 1 e- is pushed across 1V then (1e)(1V)= 1 eV of work is done.
If a charge of 2e- is pushed across a 1V pd then (2e )(1V) = 2eV.
If 2e- pushed across 6V then work is 12 eV.
To find eV given elementary charges:
(# e )(# V ) = eV.
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36 eV
What if 3e- move across 12 V?
To find eV (# elm charges) (voltage)
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7. How many joules of energy are represented by 6.9 x 1029 eV.
6.9 x 1029 eV x 1. 6 x 10-19 J. = 1.1 x 1011 J
eV
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Ex 8. A field does 3.3 x 10-7 J of work on an e-. How many eV is that?
• 3.3 x 10-7 J x 1eV = 2.1 x 1012 eV
• 1.6 x 10-19 J
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Ex 9: A proton is accelerated in a 100 V pd. How much work is done in eV?
• W = qV but if we use elem charge, we can just multiply by the voltage.
• (1 p+)(100 V) = 100 eV
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Summery Voltage or Electric Potential
V = Wk per Coulomb to bring a charged particle to point in field from infinity.
Potential / Voltage difference Wk per Coulomb to move charge between two
points at different potentials.
Charges in field have PEelc.High PE charge near point with same charge.
Low PE charge near point with opposite charge.
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Charges set lose in E fields will accelerate!
The average lightning bolt contains 5 coulombs
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Some typical voltages
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Can calculate acceleration of charges in E fields & through
Voltages.
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Set PE elc = KE
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Prove that for parallel plates
E = Vd
•V = W = Fd but F = E V = Ed
q q q
• Rearranging E = V
d
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Plates with battery
AC Delco 12 volts
d
- +d = 1 cm
A B
Batteries are meant to maintain the potential difference.
ABV Ed
AB /E V d12 / 0.01E 12000 N/CE
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Electric PE review youtube. Kahn
http://www.youtube.com/watch?v=wT9AsY79f1k
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