PASCO ME-9502 Statics System User Manual
Statics system, Me-9502
Table of contents
Document Outline
- Introduction
- Equipment
- ME-9503 Statics Board
- Important
- ME-9504 Spares Package
- ME-9505 Components Package
- ME-8979 Mass and Hanger Set
- Recommended Equipment*
- Spares Package (ME-9504)
- String Tie Assembly.
- Torque Indicator Assembly
- Components Package (ME-9505)
- Mounted Scale Assembly
- Large and Small Pulleys and Double Pulley Block
- Mass Cart and Friction Block
- Inclined Plane Assembly
- Torque Wheel Assembly and Torque Indicator Assembly
- Force Wheel Assembly and String Tie Assembly
- Balance Arm Assembly
- Utility Mount Assembly
- Using a Cord Clip
- Asymmetrical Plate
- About the Manual
- Exp. 1: Hooke’s Law-Measuring Force
- Introduction
- Hooke’s Law
- Setup
- Procedure
- Data Table
- Calculations
- Using a Spring Scale to Measure Force
- Questions
- Exp. 2: Adding Forces-Resultants and Equilibriants
- Theory
- Setup
- Procedure: Two Forces
- Procedure: Three Forces
- Data
- Analysis
- Questions
- Extension
- Exp. 3: Resolving Forces-Components
- Theory
- Setup
- Procedure 1
- Background
- Procedure 2
- Question
- Extensions
- Exp. 4: Torque-Parallel Forces
- Theory
- Setup
- Procedure: Equal Distance, Equal Mass
- Procedure: Unequal Distance, Unequal Mass
- Calculations
- Data Table
- Questions
- Exp. 5A: Center of Mass
- Theory
- Setup
- Experiment
- Asymmetrical Plate
- Exp. 5B: Equilibrium of Physical Bodies
- Theory
- Setup
- Experiment
- Calculations
- Calculations
- Extension
- Exp. 6: Torque-Non-Parallel Forces
- Theory
- Setup
- Procedure
- Analyzing Non-Parallel Forces
- Torque Wheel
- Data Table
- Question
- Extension
- Exp. 7: The Inclined Plane
- Introduction
- Experiment
- Question
- Normal Force
- Question
- Exp. 8: Sliding Friction
- Theory
- Procedure
- Data Table
- Questions
- Sliding Friction on an Inclined Plane
- Prediction
- Procedure
- Calculations
- Data Table
- Question
- Static Friction on an Inclined Plane
- Procedure
- Data Table
- Calculations
- Question
- Exp. 9: Simple Harmonic Motion-Mass on a Spring
- Theory
- Procedure
- Data Table
- Questions
- Extension
- Question
- Simple Harmonic Motion-Beam on a Spring
- Procedure
- Data Table
- Questions
- Exp. 10: Simple Harmonic Motion-The Simple Pendulum
- Theory
- Procedure
- Data Table
- Data Table
- Questions
- Exp. 11A: Simple Harmonic Motion-Physical Pendulum
- Theory
- Procedure
- Data Table
- Calculations
- Questions
- Extension: Period of Oscillation for Large Angles
- Setup
- Procedure
- Data Table
- Analysis
- Question
- Exp. 11B: Minimum Period of a Physical Pendulum
- Theory
- Procedure
- Data Table
- Calculations
- Questions
- Exp. 11C: Simple Harmonic Motion-Beam on a Spring
- Theory
- Procedure
- Calculations
- Data
- Data Table
- Questions
- Extension
- Exp. 12: Simple Machines-The Lever
- Theory
- Setup
- Procedure
- Data Table
- Calculations
- Questions
- Extension
- Data Table
- Questions
- Exp. 13: Simple Machines-The Inclined Plane
- Introduction
- Procedure
- Calculations
- Question
- Procedure
- Calculations
- Questions
- Exp. 14: Simple Machines-The Pulley
- Theory
- Procedure
- Question
- Data Table
- Questions
- Exp. 15: Forces on a Boom
- Theory
- Procedure
- Data Table
- Calculations
- Question
- Exp. 16: Modified Atwood’s Machine
- Theory
- Setup
- Procedure
- Data Table 1: Constant Total Mass
- Data Table 2: Constant Net Force
- Calculations
- Questions
- Technical Support