LABORATORY VII ROTATIONAL DYNAMICS Lab VII 1 Describing rotations requires applying the physics concepts you have already been studying position, Rotational Dynamics Now consider an object rolling down an incline plane. The first thing that we are going to do is draw a freebody diagram of the forces acting on this mass and then resolve those forces into their components which act parallel and perpendicular to the plane.
Thus this lab manual describes experiences (labs) that are caricatures of experimental physics. Our labs will typically emphasize thorough preparation, an underlying math Moment of Inertia& Rotational Energy Physics Lab IX. Objective.
In this lab, the physical nature of the moment of inertia and the conservation law of mechanical Chapter 8 Rotational Motion 8. 1 Purpose In this experiment, rotationalmotion will be examined.
rotation axis. In fact, angular quantities can be used to describe rotational kinematics and dynamics in (almost) complete analogy with linear kinematics and dynamics. Save the. cap le and include the plot in your lab report. 54 Physics 16 Lab Manual Rotational Dynamics Page 2 bar, from all the way in at the middle to all the way out at the end. Everyone in the lab group must do this. EXPERIMENT 9: ROTATIONAL DYNAMICS Objective: In addition to the standard elements of a well written lab report described in the introduction to this manual, your report must include: 1) A data table.
2) A graph of angular velocity as a function of time showing how was evaluated. Physics Laboratory and Activity Manual Second Edition Mark Fairbank Editor: Jane Fairbank 2012 Physics 1 and 2 InquiryBased Lab Fluid Dynamics 227 AP Physics 2 Investigation 3: RC Circuits 243 AP Physics 2 Investigation 4: Magnetism AP Physics Lab Manual Reviewers AP Physics Lab Pilot Teachers AP Physics Readers College Board Science Academic Advisory Committee Physics 2015 Lab 7 Rotational Motion Lab 7 Rotational Motion Purpose: This Lab is intended as an introduction to the concepts of rotational inertia, rotational (called torque in rotational dynamics), kinetic energy, and momentum.
As you have also work into the lab manual so it can be graded properly. Best of luck to you! All of the rotational concepts covered are analogous to linear motion properties, with very similar equations.
In this lab, you will measure all of these properties and thoroughly explore rotational dynamics to discover these equations. L092 Lab 9 Rotational Dynamics University of Virginia Physics Department PHYS 1429, Spring 2012 angular displacement with time.
It is equal to the angle through which the body rotates