chapter 11: rolling, torque, and angular...
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![Page 1: Chapter 11: Rolling, Torque, and Angular Momentumastro1.panet.utoledo.edu/~khare/teaching/phys2130h... · Conservation of Angular Momentum • If the net external torque acting on](https://reader034.vdocuments.site/reader034/viewer/2022042600/5f3998b6e44ca95f46025132/html5/thumbnails/1.jpg)
Chapter 11: Rolling, Torque, and Angular Momentum
• For an object rolling smoothly, the motion of the center of mass is pure translational.
s = θ R vcom = ds/dt = d(θ R)/dt = ωRvcom = ωR
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• Rolling viewed as a combination of pure rotation and pure translation
• Rolling viewed as pure rotation vtop = (ω)(2R) = 2 vcom
• Different views, same conclusion
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• Rotational inertia involves not only the mass but also the distribution of mass for continuous masses
• Calculating the rotational inertia dmrI 2∫=
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The Kinetic Energy of RollingView the rolling as pure rotation around P, the kinetic energy
K = ½ IP ω2
parallel axis theorem: Ip = Icom +MR2
so K = ½ Icomω2 + ½ MR2ω2
since vcom = ωR
½ Icomω2 : due to the object’s rotation about its center of mass
½ M(vcom)2 : due to the translational motion of its center of mass
K = ½ Icomω2 + ½ M(vcom)2
![Page 5: Chapter 11: Rolling, Torque, and Angular Momentumastro1.panet.utoledo.edu/~khare/teaching/phys2130h... · Conservation of Angular Momentum • If the net external torque acting on](https://reader034.vdocuments.site/reader034/viewer/2022042600/5f3998b6e44ca95f46025132/html5/thumbnails/5.jpg)
22.m.crottrans I
21Mv
21KKK ω+=+=
vc.m. = 0.15m/s
Idisk =1/2MR2 = (0.5)(1.4kg)(0.085m)2 = 5.058x10−3kg m2
ω = v/R = (0.15m/s)/0.085m = 1.765 rad/s
J10x63.2310x878.710x75.15
)765.1)(10x058.5(21)15.0)(4.1(
21KKK
333
232rottrans
−−−
−
=+=
+=+=
Sample Problem: A uniform solid cylindrical disk, of mass M = 1.4 kg and radius R = 8.5 cm, rolls smoothly across a horizontal table at a speed of 15 cm/s. What is its kinetic energy K?
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Vector Product (Review)• Vector product of vectors a and b
produce a third vector c whose magnitude is
c = a b sin φwhose direction follow the right hand rule
if a and b parallel => a x b = 0if a and b perpendicular => a x b =abi x i = 0 i x j = 1 Note: a x b = - ( b x a )
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Torque revisited• For a fixed axis rotation, torque τ = r F sinθ• Expand the definition to apply to a particle that
moves along any path relative to a fixed point.
• direction : right-hand rule• magnitude :
Frτrrr ×=
FrrFrFτ ⊥⊥ ==Φ= sin
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Angular momentum• Angular momentum with respect to
point O for a particle of mass m and linear momentum p is defined as
direction: right-hand rulemagnitude:
• Compare to the linear case p = mv
)vr(mpr rrrrlv
×=×=
φ=φ= sinmvrsinprl
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Particles 1, 2, 3, 4, 5 have the same mass and speed as shown in the figure. Particles 1 & 2 move around O in opposite directions. Particles 3, 4, and 5 move towards or away from O as shown.
Which of the particles has the greatest magnitude angular momentum?
2r
r
2r
r
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Particles 1, 2, 3, 4, 5 have the same mass and speed as shown in the figure. Particles 1 & 2 move around O in opposite directions. Particles 3, 4, and 5 move towards or away from O as shown.
Which of the particles has the greatest magnitude angular momentum?
1) 1 2) 2 3) 3 4) 4 5) 5 6) all have the same l
2r
r
2r
r
φ=φ= sinmvrsinprl φ= 90o only for 1 and 2, but r1= 2r2.
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Newton’s Second Law in Angular Form
• : the vector sum of all the torques acting on the object
• Comparing to the linear case:
• Newton’s 2nd law for a system of particles
– Net external torque equals to the time rate change of the system’s total angular momentum
tdldτnet
rr =
dtpdFnet
rr=
netτr
dtLdτ total
net
rr = ∑
=
=n
iitotal lL
1
rr
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Torque and Angular Momentum
( ) Framrtdvdmr
td)vmr(d
tddτnet
vvvvv
v
vvvv
×=×=
×=
×== l
Torque is the time rate of change of angular momentum.
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A QuizParticles 1, 2, 3, 4, 5 have the same mass and speed as shown in the figure. Particles 1 & 2 move around O in opposite directions. Particles 3, 4, and 5 move towards or away from O as shown.
Which of the particles has the smallest magnitude angular momentum?
1) 1 2) 2 3) 3 4) 4 5) 5 6) all have the same l
2r
r
2r
r
![Page 14: Chapter 11: Rolling, Torque, and Angular Momentumastro1.panet.utoledo.edu/~khare/teaching/phys2130h... · Conservation of Angular Momentum • If the net external torque acting on](https://reader034.vdocuments.site/reader034/viewer/2022042600/5f3998b6e44ca95f46025132/html5/thumbnails/14.jpg)
A QuizParticles 1, 2, 3, 4, 5 have the same mass and speed as shown in the figure. Particles 1 & 2 move around O in opposite directions. Particles 3, 4, and 5 move towards or away from O as shown.
Which of the particles has the smallest magnitude angular momentum?
1) 1 2) 2 3) 3 4) 4 5) 5 6) all have the same l
2r
r
2r
r
φ=φ= sinmvrsinprl φ= 0o for 5. => l = 0
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The angular momentum of a rigid body rotating about a fixed axis
• Consider a simple case, a mass m rotating about a fixed axis z: l = r mv sin90o = r m r ω = mr2ω = I ω
• In general, the angular momentum of rigid body rotating about a fixed axis is
L = I ωL : angular momentum along the rotation axis I : moment of inertia about the same axis
z
x
yr
v
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Conservation of Angular Momentum• If the net external torque acting on a system is zero, the
angular momentum of the system is conserved.
if then
• If τnet, z = 0 then Li, z = Lf, z
• For a rigid body rotating around a fixed axis, ( L = I w ) the conservation of angular momentum can be written as
Ii ωi = If ωf
dtLdτnet
rr = constL =
r
fi LLrr
=
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Some examples involving conservation of angular momentum
• The spinning volunteer
Ii ωi = If ωf
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Angular momentum is conserved
Li is in the spinning wheel
Now exert a torque to flip its rotation.Lf, wheel = −Li.
Conservation of Angular momentum means that the person must now acquire an angular momentum.Lf, person = +2Liso that Lf = Lf, person + Lf, wheel =+2Li + −Li = Li.
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Problem 11-66
++ω=
ω++ω=
ω+=+=
1RR
mm
211Rm
)RR(m21Rm
IvRmLLL
22
21
1
2i
221
i22
212i
221
ii21ring,icat,ii
Initial Momentum
Ring of R1 (=R2/2) and R2 (=0.8m), Mass m2 = 8.00kg.ωi = 8.00 rad/s. Cat m1 = 2kg. Find kinetic energy change when cat walks from outer radius to inner radius.
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Problem 11-66
Ring of R1 (=R2/2) and R2 (=0.8m), Mass m2 = 8.00kg.ωi = 8.00 rad/s. Cat m1 = 2kg. Find kinetic energy change when cat walks from outer radius to inner radius.
![Page 21: Chapter 11: Rolling, Torque, and Angular Momentumastro1.panet.utoledo.edu/~khare/teaching/phys2130h... · Conservation of Angular Momentum • If the net external torque acting on](https://reader034.vdocuments.site/reader034/viewer/2022042600/5f3998b6e44ca95f46025132/html5/thumbnails/21.jpg)
Problem 11-66
Ring of R1 (=R2/2) and R2 (=0.8m), Mass m2 = 8.00kg.ωi = 8.00 rad/s. Cat m1 = 2kg. Find kinetic energy change when cat walks from outer radius to inner radius.
++ω=
ω++ω=
ω+=+=
1RR
mm
211Rm
)RR(m21Rm
IvRmLLL
21
22
1
2f
211
f22
212f
211
ff11ring,fcat,ff
Final Momentum
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Problem 11-66
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Initial Kinetic energy Ki is:
Problem 11-66
Ring of R1 (=R2/2) and R2 (=0.8m), Mass m2 = 8.00kg.ωi = 8.00 rad/s. Cat m1 = 2kg. Find kinetic energy change when cat walks from outer radius to inner radius.