Rotational inertia lab report. Universal 550 Physics Experiment .

Rotational inertia lab report Activity #2: Rotational inertia of Point Mass, Parallel-Axis Theorem Theoretical Rotational Inertia. Apparatus: String, rotational apparatus, a set of masses, a meter stick, LabQuest, Photogate, laptop, pulley, and/or smart pulley. Moment of Inertia. . Retrieved from https M11 Rotational Inertia VI Report 1 m g mt g 10 15 1 15 20 1 20 25 1 25 30 1 30 35 1 p1 0 17 0 23 0 30 0 37 0 43 p2 0 17 23 0 30 0 36 0 43 p3 0 17 0 23 0 30 0 3 Lab Report 6 pages. lab report. The rod had a rotational inertia of 3-4kgm^2, the second smallest moment of inertia. docx), PDF File (. Although students will not calculate rotational inertia in this course, they will use the concept of rotational inertia in calculations of quantities such as torque and rotational kinetic energy. Rotational inertia is a similar concept applied to objects whose motion is rotational instead of Lab Report PhyI-05: Rotational Inertia Student’s Name: Syed Moosa Raza CRN Date 28th February 2022 Activity #1: Rotational inertia of Disk, Ring, and Rod Theoretical Rotational Inertia. To apply rotational kinematics and dynamics to a mass falling while suspended from a pulley; 2. Goals: Understanding how the moment of inertia, influenced by mass distribution, affects and object's ability to change it spinning direction, and how it relates to Newton's 2nd Law for rotation: t=Iα Procedures: For Part 1, we'll compare how the moment of LAB 2 (ROTATIONAL INERTIA) - Free download as Word Doc (. Rotational Inertia of the Steel Disk. The video should be accompanied b Lab Report 10: Rotational Motion Izak Johnson - Cole Rangel November 26th, 2023 Purpose The purpose of this lab is to focus on the study of rotational motion by calculating the moment of inertia of the main platter in our rotational motion lab apparatus. Using experimental quantities, the moment 1 PHYSICS 182A/195L LAB REPORT - LAB 9: Rotational Inertia Lab 9: Rotational Inertia San Diego State University Department of Physics Physics 182A/195L TA Name: Lab partner 1: Lab partner 2: Introduction An object with mass resists changes in velocity. Clay Long Abstract The purpose of this lab was to observe a wheel's rotational inertia. ! Vernier caliper and 30 cm ruler. Figure 1: Rotational motion apparatus. Flywheel Moment of Inertia Lab Report. Using a rotary motion sensor to measure the acceleration of the disk and ring together as well as the disk alone. Students also viewed. PHYSICS 182A/195L LAB REPORT - LAB 9: Rotational Inertia Lab 9: Rotational Inertia San Diego State University Department of Physics Physics 182A/195L Name: Lab partner 1: Lab partner 2: Introduction An object with mass resists changes in velocity. Grip size: 0 to 0. The moment of inertia I about this axis is given by the sum of all the products ( mi ri2) calculated for each element, I = i ( mi ri2) . Thus, the moment of inertia is to rotational motion what the mass of an object is to translational motion. November 11, 2024 Lab Section B Lab #10: Rotational Motion Purpose: This lab combines all the concepts Conservation of Energy, Inertia, rotational motion, and Torque of Friction. (2024, Jan 04). 16 x 10^-4 kg*m^2. inertia of the rotational platform and of the masses which can be attached to the Physics I Laboratory Faculty of Science, Ontario Tech University Lab Report PhyI-05: Rotational Inertia Lab Report PhyI-05: Rotational Inertia Student’s name CRN Date Nov Activity #1: Rotational inertia of Disk, Ring, and Rod Theoretical Rotational Inertia Table 3 Disk Ring Rod Radius r d, m Mass m d, kg I d, kg·m 2 Radius r ri, m Radius r Triple beam balance. 71". 2. 2is found by adding up the moments of each mass so Eq. Besides the apparatus, the other materials were rotational inertia accessories, a timer, string, a pulley array, a mass hanger, and a 20 g weight. In this laboratory, you will analyze and predict the motion of extended objects and describe the behavior Part 3 Part II: The main research question we looked at in lab 9 and 10 was how the rotational inertia of a bar is affected by two separate independent variables, those variables being the mass of the bar and the radius of the mass on the bar. Individual printouts should be change that object’s rotational velocity. To study the conservation of angular momentum and apply it to the situation of two colliding disks Introduction 138071721-Moments-of-Inertia-Lab-Report. This document summarizes an experiment to determine the moment of inertia of a rotating object like a bicycle wheel through different methods. This experiment is very involved and requires critical thinking to Investigation into causes of variation between experimental and theoretical values of moment of inertia for various objects. Alexi Wallace College Physics Lab 1 Section 003 I. Objective: The objectives of this lab experiment are to determine the moment of inertia of a flywheel, to analyze the effect of varying mass on mass moment and to observe other factors which may affect the performance of experimental set up. We will calculate these values through three “standard” setups that Moments of Inertia A Lab Consisting of 4 Activities Name: _____ Circle the name of the person to whose report your group printouts will be attached. Then make sure the platform is level before continuing. Using this data along with the taken masses and measured radius of each we were able to calculate the rotational inertia of each object Procedure: My group first took This lab extends the exploration of the Newtonian Mechanics to rotational motion. Applying Newton's Second Law for the hanging mass, m, (see Figure 6) yields F = m(g - a) (5) Finally, the linear acceleration, a, is related to the angular acceleration, α, by Rotational Inertia Lab (choice of three scenarios) Description This simulation is actually three simulations in one. If the mass ( The document describes an experiment on rotational inertia and conservation of angular momentum. Purpose: To determine the moment of inertia for objects both individually and together by observing components of rotational motion. Procedures involved measuring physical properties of ROTATIONAL DYNAMICS Lab VII - 1 Describing rotations requires applying the physics concepts you have already been studying – position, torque, moment of inertia (or rotational inertia), rotational kinetic energy, and angular momentum. Purpose In the first part of this laboratory exercise you will measure the moment of inertia of three different objects about a specified rotational axis and verify the parallel axis theorem. LAB 173 views. It describes using a timer, photo gates, and hanging masses to time the wheel's rotation under object. When a torque is applied to said object, the object will accelerate, going In this lab we will be using the Rotational Inertia Demonstrator made by Arbor Scientific. 2 Introduction Note: For this experiment, you will write a complete (formal) lab report and Purpose: The purpose of this lab was to measure the rotational inertia of a disk and a connected ring. pdf from PHY 214L at California Baptist University. Physics Laboratory Report PHY 151 M11 Rotational Dynamics This report is worth 134 points _ This section is completed by the student Student Name: _Nicholas Ames Rotational Motion 8. (Note that Fig. Lab Report PhyI-05: Rotational Inertia 11. pdf. Assemble the platform as shown in the diagram. Rotational Motion Experiments. Table 3 Disk Ring Rod Radius rd, m. Introduction Lab Name: Rotational Inertia Lab Date: March 2015. The torque can be used to measure the exact force of an object as it rotates, as rotational inertia is the resistance of the object around the rotational axis. Mass md, kg. The theoretical rotational inertia varied between each object. All Activities. docx - Free download as Word Doc (. 0 m 4-3 kg·m 2 0 m 1-3 kg·m 2 0 m 1-3 kg·m 2. Key objectives were to explore rotational kinematics, relate angular and linear motion, experimentally find moments of inertia and compare to calculations, and examine energy conservation. The torque can Rotational Inertia, also known as Moment of Inertia, plays the same role in rotational motion as that of the mass in translational motion. Geometrically, the moment of inertia was found to be 6. Can be used with our Rotational Inertia Demonstrator (P3-3545). Books; PHYS 234 Lab Report 6 Rotational Inertia. Group Number Experiment Date: 11/23/2022 Date of Report Submission: 12/03/ Course & Section Number: PHYS111A-013 Professor’s name: 1. Introduction The following experiment explores the principles of point mass rotational inertia and conservation of energy in order to find the mass of a block. 100% (2) 3. Lab Report-MCB 3020 - Microbiology Lab Report. Lab Report experiment 11: torque statement of objective: to verify and measure the moment of to verify second law applied to rotation verifying both: the. Classical Physics I (PHYS 234) 38 Documents. The rotational inertia of the disk and ring combination is calculated from the torque and the angular acceleration. Procedure Part 1: 1. M = m 1 + m 2 = 0 kg Table 5 R 1 , m I 1 = MR 12 , kg·m 2 R 2 , m I 2 = MR 22 , kg·m 2 d, m I 3 = I 2 + Md 2 , kg·m 2 0 0 0 0 0 0. Rotational Dynamics Goals •To calculate the moment of inertia of two metal cylindrical masses from their measured In rotational motion the moment of inertia, I, plays a role similar to that of mass in translational (or linear) motion but with some important differences. Investigate the relationship between moment of inertia ( I ), angular acceleration (α) and torque (𝜏) using spheres with varying mass displacement. The Dependence of Rotational Inertia on Position. The Rotary Motion Sensor, Super Pulley, 3-step pulley, and rod should already be assembled as shown in the drawing. Angle Ø, angular velocity ω, and angular acceleration α replace Lab Report PhyI-05: Rotational Inertia. Physics I Laboratory Faculty of Science, Ontario Tech University. The ‘moment of inertia’ is just the rotational equivalent of mass for the linear motion. 3. 1. Using the LINEST equation in excel to obtain the slope, uncertainty of slope, b, and uncertainty of b. lab report moore ryan moore and shawn kamphius professor liu phys 14 march 2016 moment of inertia lab report the purpose of this experiment is to examine the. They can choose a single constant force, a tension force caused by a single falling mass, or an at wood's machine type situation with two hanging Lab Report PhyI-05: Rotational Inertia Physics I Laboratory Faculty of Science, Ontario Tech University. After the table reaches its equilibrium position, make sure that the The moment of inertia, I, is determined by imagining that the body is divided into a number of infinitesimal elements of mass mi each at a distance ri from the axis of rotation. University of Cincinnati, Main Campus. First by using the rotational apparatus, then by direct measurements of its mass and radius. The rotational inertia of an object will depend on the object’s 90 Degree Clamp for standard laboratory ring stands and wherever clamping at 90° is required. Analogous to the “mass” in translational motion, the “moment of inertia”, I, describes how difficult it is to change an object’s rotational motion; specifically speaking, the angular velocity. “ I Physics document from University of Ontario Institute of Technology, 2 pages, Physics I Laboratory Faculty of Science, Ontario Tech University Lab Report PhyI-05: Rotational Inertia Student's name: Avimannue Dey. phy151 T2 Question: Is the rotational inertia of the encoder the same in each trial? Should it be? Explain. Our control variables for both were initial mass of pipe, This physics lab report describes an experiment to determine the moment of inertia of various objects through rotational motion. The ring had a rotational Physics Laboratory Report Torque and Rotational Inertia Lab Number: 127. Angular momentum lab: Simulation of rotational dynamics, rotational inertia and conservation of angular momentum Purpose 1. We will calculate these values through three “standard” setups that Lab Report PhyI-05: Rotational Inertia physics laboratory faculty of science, ontario tech university lab report rotational inertia name mujtaba chaudhry date lab template 7 phys207 lab report rotational motion and the moment of inertia section number ta name student names (starting with the primary author) date. Lab 10: Rotational Inertia We are going to use the data from a pulley with mass experiment to compare our Lab Report 10, The purpose of this lab was to find the moment of inertia of the ring and disk system using two methods. Two point masses at radius R 1 (Run 5) Two point masses at radius R 2 (Run 6) at, m/s 2 Ir1, kg·m 2 I 1 , kg·m 2 at, m/s 2 Ir2, kg·m 2 I 2 , kg·m 2 0 1-3 1-3 4-4 3-3 3- 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 energy, and angular momentum. Figure 2 Spin increases at rate α. Data was tabulated for V-1 table. Teachers; Student Names PHYS201 – Lab 7 – Rotational Motion and the Moment of Inertia Date Performed. Moment of Inertia of a Rod Figure 1 Experimental rotating rod. For instance, "Rotational inertia is just a fancy name for an object's mass· when the object is rotating. Skip to document. For example, the moment of inertia of the system shown in Fig. Lab report Answer the questions on the page attached to the data sheet and include it in your Lab 7 ~ moment of inertia Group members: Thomas Handy, Anteneh Elias, Kwame Baffour Jr. Measured Rotational Inertia rp = 0 m mh = 0 _ kg (take values from Table 4) Table 6. The experiment aims to find the rotational inertia of a ring and disk experimentally and compare to theoretical calculations. In this lab, you will work to develop an understanding of how to model rotational motion and quantify several aspects in order to measure the moment of inertia of an object and compare to . Universal 550 Physics Experiment 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 energy, and angular momentum. Lab #01. INTRODUCTION. Physics Lab Report 07-08. Simple Harmonic Motion Lab Online; PHY 1951 LAB Position, velocity and acceleration L2 pdf; Analysis of Rotational Inertia Lab Name Stefany Pascua Course/Section PHY-1951-005 Physics for Lab 9. A flywheel is attached to a device and angular acceleration is calculated by measuring the time taken for one Objectives: Physics - moment of inertia and the rotational version of Newton’s second law Methodology - graphical analysis Question of the Day: What does the moment of inertia of a rotating system depend on? The moment of inertia is a measure of an object's resistance to changes in its rotational motion. Solutions available. Nickel-plated zinc construction. It finds that the The purpose of this lab was to ascertain the rotational inertia of point masses and various solid bodies. 8. mt View Physics Lab 10 Rotational Motion Report. In other words, what we call Inertia or mass Report Document. Procedure. This resistance is called inertia, and it is the fundamental principle behind Lab Report PhyI-05: Rotational Inertia. Theory: An object rotating along a particular axis has a specific moment of inertia. Numerous experimental objects were used throughout The objective of this experiment is to verify that the moment of inertia (rotational inertia) for a system of objects rotating about the same fixed-axis will be the sum of the constituent moments of inertia plus the additional terms as predicted by Lab experiment #11 [Based on PASCO lab manual 37 Rotational Inertia, written by Jon Hanks] A known torque is applied to the three-step pulley on the Rotary Motion Sensor, causing a disk Lab Report 10: Rotational Inertia 04/09/12 James Edward Allison III section 20362 Objective: During this lab we will study what rotational Inertia is and how different shapes of masses and different masses behave inertially when compared to Plan: The Inertial can be experimentally found by the equation Inertia= Torque/Angular Acceleration. A known torque is applied using mass moment of inertia lab report. We will use the measured values to calculate the force of tension, and finally the moment of inertia of the rotational motion apparatus. View Lab Report PhyI-05: Rotational Inertia from AA 1Lab Report PhyI-05: Rotational Inertia Student's name Ting Wu(100745639) Derek Zhang(100753179), CRN 40372 Date November 27, 2019 Activity #1: Physics I Laboratory Faculty of Science, Ontario Tech University Lab # PhyI-05: Rotational Inertia ##### Introduction. 1 Moment of Inertia and Parallel-Axis Theorem Procedure 1. Students can experiment with a rotating object with various forces applied to it. This device has a central, low friction, pulley with three different radii from which strings can be tied. Decrease quantity for 90 With tangential acceleration, the rotational inertia can be calculated. And View Lab 10 Rotational Inertia. It measures the moment of inertia and angular velocity of a disk alone and with an added ring. Avanish Govekar Date: Lab 8 report: Moment Of Inertia Professor: Bogomil Gerganov Purpose: The object of this experiment is to measure the moment of inertia of simple geometric objects. If a point mass m is located a perpendicular Moment of Inertia & Oscillations 1. In this experiment, you will determine the rotational Lab Report 6: Rotational Inertia April 16, 2018 Introduction The following experiment explores the principles of point mass rotational inertia and 4 Lab experiment #11 [Based on PASCO lab manual 37 Rotational Inertia, written by Jon Hanks] τ = r F (4) The tension in the string, F, is less than the weight, due to the downward acceleration. Two point masses at radius R 1 (Run 5) Two 8. Physics I Laboratory Faculty of Science, UOIT. PHYS 1051 L. University; High School. Question: What is the mean value, with uncertainty, for the rotational inertia of the encoder. Physics I Laboratory Faculty of Science, UOIT Lab Report PhyI-05: Rotational Inertia Student’s name CRN Date Activity #1: Rotational inertia of Disk, Ring, and Rod Theoretical Rotational Inertia Table 3 Disk Ring Rod Radius r d, m Mass m d, kg I d, kg·m 2 Radius r ri, m Radius r ro, m Mass m r, kg I r, kg·m 2 Length L rod, m Mass m rod , kg Based on this chart, which object in the following picture would you predict would reach the bottom of the incline first: the solid cylinder or the thin ring? To decide, consider the rotational inertia of each object and how inertia affects motion. LAB REPORT FOR EXPERIMENT M11: ROTATIONAL INERTIA VI (1) Moment of inertia of the disk. This resistance is called inertia, and it is the fundamental principle behind Newton’s first law. Rotational Motion: Moment of Inertia The moment of inertia of a more complicated object is found by adding up the moments of each individual piece. This lab helps to provide a conceptual understanding of the physics properties of an object that define the object’s rotational inertia. Physics I Laboratory Faculty of Science, Ontario Tech University Lab Report PhyI-05: Rotational Inertia Student's name_____ CRN_____ Date _____ Activity #1: Rotational inertia of Disk, Ring, and Rod Theoretical Rotational Inertia Table 3 Disk Ring Rod Radius r d, m Mass m d, kg I d, kg·m 2 Radius r ri, m Radius r ro, m Mass m r, kg I r, kg·m PHYSICS 182A/195L LAB REPORT - LAB 9: Rotational Inertia Lab 9: Rotational Inertia San Diego State University Department of Physics Physics 182A/195L TA Name: Lab partner 1: Lab partner 2: Date: Score: Enter Data in blue Introduction An object with mass resists changes in velocity. III. The angular velocity is used Laboratory Work 3. A. txt) or read online for free. Date: 2/12/23 Activity #1: Rotational inertia of Disk, Ring, and Rod Theoretical Rotational Inertia Table 3 View Lab - EXPERIMENT M11 from PHY 158LAB at SUNY Buffalo State College. pdf), Text File (. Lab Report PhyI-05: Rotational Inertia Student’s name: CRN: Date: October 30, 2022 Activity #1: Rotational inertia of Disk, Ring, and Rod Theoretical Rotational Inertia. Source Collection: Lab #28. The torque can be calculated as seen above by multiplying the The lab was set up using a rotation track and driving pulley, helping us to find the results and understand the difference between torques and rotational inertia. If the object has more mass, it has more rotational inertia, and if it has less mass, it Rotational Motion Part 1. dms220 wenchao 2 pages. Introduction: The dynamic quantities of an object that begins to rotate must be adjusted. It also has four thin rods that form spokes on which masses can be Lab 7 - Rotational Inertia Introduction When you were younger, you might have had toy cars that you rubbed quickly across the floor several times to "rev them up. In the context of a flywheel, it plays a significant role in maintaining the stability and efficiency of various mechanical systems, such as piston-driven engines. Lab Report 6: Rotational Inertia April 16, 2018. 2is The lab was set up using a rotation track and driving pulley, helping us to find the results and understand the difference between torques and rotational inertia. Physics I Laboratory Faculty of Science, Ontario Tech University In conclusion, the purpose of the lab is accomplished because the rotational inertia of the objects is experimentally conducted and compared to their respective theoretical values. Introduction: Moment of Inertia: It is just the rotational analogue of inertia in linear motion. Compare the Figure. doc / . II. Id, kg·m 2 AP Physics 1 - Rotational Inertia Lab Name _____ Objective: To determine examine the rotation and moment of inertia of a rotational apparatus. The procedure is repeated for the disk alone to find the rotational inertias of the ring and disk separately. Students shared 38 Moments of Inertia A Lab Consisting of 4 Activities Name: _____ Circle the name of the person to whose report your group printouts will be attached. Set up the apparatus, pulley, and photogate as shown in the When working with rotational motion for rigid bodies, many of the equations are similar to the equations of motion for linear motion. The document is a lab report for an experiment on rotational inertia. Assignments. docx from NVG 5022 at Pennsylvania State University. General Physics I Lab Report Fall 2020 general physics laboratory report cover page semester: fall 2020 lab (activity) number: experiment lab 08 rotational. Angular kinematic variables, angular momentum, Newton’s 2nd law for rotational motion, torque, and moments of inertia will be explored. For the disk, it had a rotational inertia of 1-4kgm^2, the smallest moment of inertia of the three. In this activity you will discover the effect that a constant mass, placed at a variable location on an object, has on the rotational Physics I Laboratory Faculty of Science, UOIT Lab Report PhyI-05: Rotational Inertia Student’s name: Logan Alemao CRN: 42336 Date: 11/29/2016 Activity #1: Rotational inertia of Disk, Ring, and Rod Theoretical Rotational Inertia Table 3 Physics Laboratory Report Torque and Rotational Inertia Lab 127: Torque and Rotational Inertia Name: Marilyn Grandov Group ID: Group Z Date of Experiment: 11/17/2020 Date of Report Submission: 11/24/2020 Course & Lab Report physics laboratory report lab 127 torque and rotational motion date of experiment: group physics date of report submission: 2022 introduction: when In this lab we will be conducting experiments to determine the rotational inertia of a rotating body by measuring its angular acceleration and checking its relation to the We will ROTATIONAL DYNAMICS EXPERIMENT Introduction In this experiment, you will measure the moment of inertia of the disk in two different ways, and compared the results. Course. CRN: 42693. Measured Rotational Inertia rp = 0 m mh = 0 kg (take values from Table 4) Table 6. In the second part you will measure the oscillations of a mass on a spring to investigate Hooke’s Law. We tested two independent variables, mass and radius of the system, while our dependent variable is rotational inertia found by the angular velocity. Freshmen Special Topic In Chemistry I. Introduction to Excel - Lab Report; Uniform Circular Motion; Work and Energy - Lab Report; Specific Heat - Lab Report is called the moment of inertia, I. Figure 8: Group Data Figure 9: Experimental Outcome Organizer Discussion and Conclusion: Our main research question was to determine what variable affected inertia. If the body has a simple Lab Report PhyI-05: Rotational Inertia 2. This resistance is called inertia, and it is the fundamental principle behind Newton's first law. Lab Report PhyI-05: Rotational Inertia. 1 Purpose In this experiment, rotationalmotion will be examined. When the mass of the bar was taken as the independent variable there was a correlation between the mass and the inertia as seen Qualitative Lab - Introduction to Rotational Inertia Objects resist changes in motion, and objects with more mass have more of this resistance. 8. Enhanced Document Preview: Rotational Inertia Lab Report TA: Mark Moog Lab Section: 422 Lab Partners: Sloane Miller, Noah Haga, Katherine Heyde Date Lab Performed: 3/13/2012 In my honor, I have neither given nor received unauthorized aid on this assignment. Lab # PhyI-05: Rotational Inertia ##### (Knight, Ch: 12, 12, 12, 12, 12, 12) The inertial mass m of an object is the property that allows it to resist acceleration. Lab 7 – Moment of Inertia and Rotational Motion Set up the apparatus 1. This experiment aims to determine the moment of inertia of a flywheel experimentally and compare it to the theoretical value. 3becomes I= m1r2 1 + m2r 2 2. " Then, when you put them down, they would go zipping along for some distance. ghjw olwoj vqzl qkqv fkpx vsnuj pfqcw dgisj cylwpx icdh zicn krbavwky mliwc tspdle yxl