Neurosurgery - Concussion in Professional Football - Helmet Testing to Assess Impact Performance - Part 11
1 UCT PHY1025F: Mechanics Physics 1025F Mechanics Dr. Steve Peterson [email protected] EQUILIBRIUM.
CS 282. Review of projectile physics Examine gravity projectile model Examine drag forces ◦ Simulate drag on a projectile Examine wind forces.
Ch. 8: Rotational Equilibrium and Dynamics. Objectives Know the distinction between translational motion and rotational motion. Understand the concept.
Week 12 – Angular Kinetics Objectives Identify and provide examples the angular analogues of mass, force, momentum, and impulse. Explain why changes in.
11 Rotational Mechanics An object will remain in rotational equilibrium if its center of mass is above the area of support.
Angular Kinetics Review Source: Chapter 12 of Basic Biomechanics by Susan Hall Reference to figures in this presentation refer to the former text by Kreighbaum,
Remember that inertia is the resistance an object has to movement, it depends solely on mass Rotational inertia measures the amount of torque it takes.
© Maximillian A Perez 2005 IM-SURE Irvine, CA 6.29.05 1 (13) Max Perez MicroSystems Lab Mechanical and Aerospace Engineering University of California,
We have developed equations to describe rotational displacement ‘θ’, rotational velocity ‘ω’ and rotational acceleration ‘α’. We have used these new terms.
Week 12 – Angular Kinetics Objectives Identify the angular analogues of mass, force, momentum, and impulse. Explain why changes in the configuration of.
\Rotational Motion. Rotational Inertia and Newton’s Second Law In linear motion, net force and mass determine the acceleration of an object. For rotational.