Angular momentum is comprised of ____. moment of inertia and angular velocity moment of force and...

A) Rotational kinetic energy involves: Velocity, mass, acceleration; Velocity and mass only; Angular velocity, moment of...

A) Rotational kinetic energy involves: Velocity, mass, acceleration; Velocity and mass only; Angular velocity, moment of inertia, angular acceleration; Angular velocity and moment of inertia only. B) Any object’s moment of inertia depends on its: Size only; Size and shape only; Mass only; Size, shape and mass. C) For a given mass, the largest moment of inertia will be when it is shaped into a: Ring; Sphere; Disk. D) For a given mass, the largest moment of inertia will be...

The angular momentum of Tanya Harding’s triple axel? Calculate the angular velocity and angular momentum of...

The angular momentum of Tanya Harding’s triple axel? Calculate the angular velocity and angular momentum of Tanya while she is in midair during the first two jumps (triple lutz and triple axel) a)calculate the angular velocity and angular momentum of Tanya while she is in midair during the jump. Note that triple here implies three revolutions During the jump, Tanya pulls her arms in, so to find her moment of inertia we can approximate her shape as a solid cylinder....

Can somone solve for me this question.thanks Angular momentum in rigid bodies: moment of inertia

Can somone solve for me this question.thanks Angular momentum in rigid bodies: moment of inertia

Angular momentum L in a rotating system is defined as L = I? (moment of inertia...

Angular momentum L in a rotating system is defined as L = I? (moment of inertia times angular speed). If there are no external forces changing the rotation (a force that changes rotation is a called a torque), then the total angular momentum of the system remains constant. In other words, raising or lowering one value (I or ?) makes the other change accordingly, because their product remains constant. Watch the YouTube video linked below. Ice skaters always go into...

Moment of Inertia To find the moment of inertia of different objects and to observe the...

Moment of Inertia To find the moment of inertia of different objects and to observe the changes in angular acceleration relative to changing moments of inertia. To also learn how to use calipers in making precise measurements The momentum of inertia of an object is calculated as I=∑mr^2 If the object in question rotates around a central point, then it can be considered a "point mass", and its moment of inertia is simply,  I=mr^2 where r is from the central point...

An object with moment of inertia ?1 = 9.7 ? 10−4 ?? ∙ ?2 rotates at...

An object with moment of inertia ?1 = 9.7 ? 10−4 ?? ∙ ?2 rotates at a speed of 3.0 ???/?. A 20 ? mass with moment of inertia ?2 = 1.32 ? 10−6 ?? ∙ ?2 is dropped onto the rotating object at a distance of 5.0 ?? from the center of mass. What is the angular velocity of the combined object and mass after the drop?

A turntable has moment of inertia 1 kg m2 and rotates with angular speed of 3...

A turntable has moment of inertia 1 kg m2 and rotates with angular speed of 3 rad/s. A small heavy mass (point particle) of mass 5 kg is placed on the turn table at 2 m from the axis of rotation of the turn table. What is the final rotational velocity of the system? Give your result in rad/s to three significant figures.

(a.) calculate the angular velocity (in rad/s) of the Earthh in its orbit around the sun...

(a.) calculate the angular velocity (in rad/s) of the Earthh in its orbit around the sun and that about its axus (b.) calculat the moment of inertia, the angular momentum, and the rotational kinetic enegies for both cases

An object with moment of inertia ?1 = 9.7 ? 10−4 ?? ∙ ?2 rotates at...

An object with moment of inertia ?1 = 9.7 ? 10−4 ?? ∙ ?2 rotates at a speed of 3.0 ???/?. A 20 ? mass with moment of inertia ?2 = 1.32 ? 10−6 ?? ∙ ?2 is dropped onto the rotating object at a distance of 5.0 ?? from the center of mass. What is the angular velocity of the combined object and mass after the drop? Please don't forget to state the combined mass after the drop!!!

a) Calculate the angular momentum (in kg·m2/s) of an ice skater spinning at 6.00 rev/s given...

a) Calculate the angular momentum (in kg·m2/s) of an ice skater spinning at 6.00 rev/s given his moment of inertia is 0.450 kg·m2. Answer to 3 significant figures. (b) He reduces his rate of spin (his angular velocity) by extending his arms and increasing his moment of inertia. Find the value of his moment of inertia (in kg·m2) if his angular velocity drops to 1.35 rev/s. Answer to 3 significant figures. c) Suppose instead he keeps his arms in and...