1 / 10

Rotational Inertia

Rotational Inertia. Circular Motion. Objects in circular motion have kinetic energy. K = ½ m v 2 The velocity can be converted to angular quantities. K = ½ m ( r w ) 2 K = ½ ( m r 2 ) w 2. m. r. w. Integrated Mass .

iolani
Download Presentation

Rotational Inertia

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Rotational Inertia

  2. Circular Motion • Objects in circular motion have kinetic energy. • K = ½ m v2 • The velocity can be converted to angular quantities. • K = ½ m (rw)2 • K = ½ (mr2) w2 m r w

  3. Integrated Mass • The kinetic energy is due to the kinetic energy of the individual pieces. • The form is similar to linear kinetic energy. • KCM = ½ mv2 • Krot = ½ Iw2 • The term Iis the moment of inertia of a particle.

  4. Moment of Inertia Defined • The moment of inertia measures the resistance to a change in rotation. • Mass measures resistance to change in velocity • Moment of inertia I = mr2 for a single mass • The total moment of inertia is due to the sum of masses at a distance from the axis of rotation.

  5. A spun baton has a moment of inertia due to each separate mass. I = mr2 + mr2 = 2mr2 If it spins around one end, only the far mass counts. I = m(2r)2 = 4mr2 Two Spheres m m r

  6. Extended objects can be treated as a sum of small masses. A straight rod (M) is a set of identical masses Dm. The total moment of inertia is Each mass element contributes The sum becomes an integral Mass at a Radius distance r to r+Dr length L axis

  7. Rigid Body Rotation • The moments of inertia for many shapes can found by integration. • Ring or hollow cylinder: I= MR2 • Solid cylinder: I= (1/2)MR2 • Hollow sphere: I= (2/3)MR2 • Solid sphere: I= (2/5)MR2

  8. The point mass, ring and hollow cylinder all have the same moment of inertia. I= MR2 All the mass is equally far away from the axis. The rod and rectangular plate also have the same moment of inertia. I= (1/3) MR2 The distribution of mass from the axis is the same. Point and Ring M R R M M M length R length R axis

  9. Some objects don’t rotate about the axis at the center of mass. The moment of inertia depends on the distance between axes. The moment of inertia for a rod about its center of mass: Parallel Axis Theorem h = R/2 M axis

  10. How much energy is stored in the spinning earth? The earth spins about its axis. The moment of inertia for a sphere: I = 2/5 MR2 The kinetic energy for the earth: Krot = 1/5 MR2w2 With values: K = 2.56 x 1029 J Spinning Energy The energy is equivalent to about 10,000 times the solar energy received in one year. next

More Related