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Physics 101: Lecture 13, Pg 1 Physics 101: Lecture 13 Rotational Kinetic Energy and Inertia l Today’s lecture will cover Textbook Section 8.1.

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Presentation on theme: "Physics 101: Lecture 13, Pg 1 Physics 101: Lecture 13 Rotational Kinetic Energy and Inertia l Today’s lecture will cover Textbook Section 8.1."— Presentation transcript:

1 Physics 101: Lecture 13, Pg 1 Physics 101: Lecture 13 Rotational Kinetic Energy and Inertia l Today’s lecture will cover Textbook Section 8.1

2 Physics 101: Lecture 13, Pg 2 Linear and Angular LinearAngular Displacement x  Velocity v  Acceleration a  Inertia mI KE ½ m v 2 N2L F = ma Momentum p = mv Today!

3 Physics 101: Lecture 13, Pg 3 Energy ACT l When the bucket reaches the bottom, its potential energy has decreased by an amount mgh. Where has this energy gone? A) Kinetic Energy of bucket B) Kinetic Energy of flywheel C) Both 1 and 2.

4 Physics 101: Lecture 13, Pg 4 Rotational Inertia, I l Tells how much “work” is required to get object spinning. Just like mass tells you how much “work” is required to get object moving. è K tran = ½ m v 2 Linear Motion  K rot = ½ I  2 Rotational Motion I =  m i r i 2 (units kg m 2 ) l Note! Rotational Inertia depends on what you are spinning about (basically the r i in the equation).

5 Physics 101: Lecture 13, Pg 5 Rotational Inertia Table For objects with finite number of masses, use I =  m r 2. For “continuous” objects, use table below.

6 Physics 101: Lecture 13, Pg 6 Merry Go Round B A Four kids (mass m) are riding on a (light) merry-go-round rotating with angular velocity  =3 rad/s. In case A the kids are near the center (r=1.5 m), in case B they are near the edge (r=3 m). Compare the kinetic energy of the kids on the two rides. A) K A > K B B) K A = K B C) K A < K B

7 Physics 101: Lecture 13, Pg 7 Contest!

8 Physics 101: Lecture 13, Pg 8 Inertia Rods Two batons have equal mass and length. Which will be “easier” to spin A) Mass on ends B) Same C) Mass in center

9 Physics 101: Lecture 13, Pg 9 Rolling Race (Hoop vs Cylinder) A hoop and a cylinder of equal mass roll down a ramp with height h. Which has greater KE at bottom? A) HoopB) SameC) Cylinder

10 Physics 101: Lecture 13, Pg 10 Preflight Rolling Race (Hoop vs Cylinder) Preflight Rolling Race (Hoop vs Cylinder) A hoop and a cylinder of equal mass roll down a ramp with height h. Which gets to the bottom of the ramp first? A) HoopB) SameC) Cylinder

11 Physics 101: Lecture 13, Pg 11 Main Ideas l Rotating objects have kinetic energy  KE = ½ I  2 Moment of Inertia I =  mr 2 è Depends on Mass è Depends on axis of rotation Energy is conserved but need to include rotational energy too K rot = ½ I  2

12 Physics 101: Lecture 13, Pg 12 Massless Pulley Example Consider the two masses connected by a pulley as shown. Use conservation of energy to calculate the speed of the blocks after m 2 has dropped a distance h. Assume the pulley is massless.

13 Physics 101: Lecture 13, Pg 13 Massive Pulley Act Consider the two masses connected by a pulley as shown. If the pulley is massive, after m2 drops a distance h, the blocks will be moving A) faster than B) the same speed as C) slower than if it was a massless pulley

14 Physics 101: Lecture 13, Pg 14 Summary Rotational Kinetic Energy K rot = ½ I  2 Rotational Inertia I =  m i r i 2 l Energy Still Conserved!

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