PASCO ME-8950A - Manuals

Complete Rotational System 012-05293F 2 Equipment 50g masses (2) 100g mass with 3 open hooks center post side post plastic indicator disk spring ME-8952 Centripetal Force Accessory Equipment The ME-8952 Centripetal Force Accessory includes: - center post that supports an indicator mechanism which co...

012-05293F Complete Rotational System 3 ACCESSORY ROTATIONAL INERTIA ROT ATIONAL INERTIA ACCESSOR Y ME-8953 Rotational Inertia Accessory Equipment The ME-8953 Rotational Inertia Accessory includes: - disk with bearings in the center- ring (12.7 cm diameter)- adapter to connect disk to platform- 10-s...

Complete Rotational System 012-05293F 4 Assembly ME-8951 Rotating Platform Assembling the Rotating Platform 1. Insert the cylindrical end of the shaft into the bearings on the top-side of the A-shaped iron base. Secure the shaft in place by inserting the "E" ring in the slot at the bottom of...

012-05293F Complete Rotational System 5 "A" base Photogate Head (optional) thumbscrew photogate mount rod 10-spoke pulley on vertical shaft 0 10 1 2 3 4 5 6 7 8 9 20 11 12 13 14 15 16 17 18 19 21 22 24 10 9 8 7 6 5 4 3 2 1 20 19 18 17 16 15 14 13 12 11 24 23 22 21 0 10 1 2 3 4 5 6 7 8 9 20 1...

Complete Rotational System 012-05293F 6 nylon thumb- screw 10-spoke pulley on vertical shaft accessory mounting rod "A" base pulley mounting rod Photogate Head (optional) Super Pulley 6. When the Photogate Head is powered by a computer interface, you can tell when the photogate is blocked by...

012-05293F Complete Rotational System 7 1 2 3 0 1 2 3 4 5 side post indicator disk indicator bracket Figure 6: Side Post Assembly thumbscrew square nut 100g mass single length of thread (30cm long) side post nylon thumbscrew Side Post Assembly Assemble the side post as shown in Figure 6:1. Insert th...

Complete Rotational System 012-05293F 8 ROT ATIONAL INERTIA ACCESSOR Y ME-8953 Rotational Inertia Accessory Rotational Inertia Accessory Assembly Little assembly is required to use the Rotational Inertia Accessory. The rotational disk can be placed directly onto the axle of the rotating base or can ...

012-05293F Complete Rotational System 9 EQUIPMENT NEEDED - Rotating Platform (ME-8951) - Rubber band - Projectile Launcher (ME-6800) - White paper and carbon paper - Projectile Collision Accessory (ME-6815) - Thread - Photogate/Pulley System (ME-6838) - Meter Stick (SE-6895) - DataStudio Software - ...

012-05293F Complete Rotational System 11 CAUTION! DO NOT LOOK DOWN BARREL! CAUTION! DO NOT LOOK DOWN BARREL! CAUTION! DO NOT LOOK DOWN THE BARREL. LONG RANGE MEDIUM RANGE SHORT RANGE Position of Ball Launch SHORT RANGE PROJECTILE LAUNCHER ME-6800 Yellow Band in Window Indicates Range. 90 80 70 60 50...

Complete Rotational System 012-05293F 12 5. The distance between the Photogates is 10 cm. Calculate the initial speed and record it in Table 1.2 and Table 1.4. Part II: Conservation of Angular Momentum Setup 1. Find the mass of the ball and record it in Table 1.3.2. Attach the ball catcher to the tr...

012-05293F Complete Rotational System 13 Part III: Determining the Rotational Inertia Setup 1. Attach a Photogate with a pulley and mounting rod to the base using the black rod. 2. Connect the Photogate to a PASCO interface and connect the interface to a computer. 3. Wind a thread around the middle ...

Complete Rotational System 012-05293F 14 Measure the Radius 1. Using calipers, measure the diameter of the step pulley about which the thread is wrapped and calculate the radius. 2. Record the radius in Table 1.4. Analysis 1. Calculate the average of the angular speeds in Table 1.3 and record the re...

012-05293F Complete Rotational System 15 rotating platform hanging mass mg T a "A" base Experiment 2: Rotational Inertia of a Point Mass EQUIPMENT NEEDED - DataStudio Software - PASCO Interface (see Note) - Mass and Hanger Set - Paper clips (for masses < 1 g) - Photogate/Pulley System - B...

Complete Rotational System 012-05293F 16 Once the linear acceleration of the mass ( m ) is determined, the torque and the angular acceleration can be obtained for the calculation of the rotational inertia. Setup 1. Level the rotating platform.2. Attach the square mass (point mass) to the track on th...

012-05293F Complete Rotational System 17 5. If the velocity increases or decreases as the platform turns, stop monitoring data, stop the plat- form, and adjust the amount of mass on the thread by adding or removing a paper clip. 6. Repeat the process until the velocity stays constant as the mass fal...

012-05293F Complete Rotational System 19 Experiment 3: Centripetal Force EQUIPMENT NEEDED - Centripetal Force Accessory (ME-8952) - Rotating Platform (ME-8951) - Stopwatch - Balance - Graph paper (2 sheets) - Mass and Hanger Set - String Purpose The purpose of this experiment is to study the effects...

Complete Rotational System 012-05293F 20 2. Attach the clamp-on pulley to the end of the track nearer to the hanging object. Attach a string to the hanging object and hang a known mass over the clamp-on pulley. Record this mass in Table 3.1. This establishes the constant centripetal force. 3. Select...

012-05293F Complete Rotational System 21 5. Calculate the centripetal force from the slope and record in Table 3.2. 6. Calculate the percent difference between the two values found for the centripetal force and record in Table 3.2. Part II: Vary Force (constant radius and mass) The radius of rotatio...

012-05293F Complete Rotational System 23 Analysis 1. The weight of the mass hanging over the pulley is equal to the centripetal force applied by the spring. Calculate this force by multiplying the mass hung over the pulley by “g” and record the result at the top of Table 3.5. 2. Calculate the centri...

012-05293F Complete Rotational System 25 Experiment 4: Conservation of Angular Momentum Using a Point Mass EQUIPMENT REQUIRED - DataStudio Program - Rotating Platform (ME-8951) - PASCO Interface (see Note) - Photogate/Pulley System - Rotational Inertia Accessory (ME-8953) - Balance Purpose A mass ro...

Complete Rotational System 012-05293F 26 Part I: Conservation of Angular Momentum Setup 1. Level the apparatus using the square on the track as shown in the leveling instructions in the Assembly Section. 2. Slide a thumb screw and square nut into the T-slot on the top of the track and tighten it dow...

012-05293F Complete Rotational System 27 center post string stop screws (2) Procedure 1. Select ’Smart Pulley (Rotational)’ as the type of sensor. Set up a Graph display of Velocity (rad/s) versus time. 2. Hold the string just above the center post. With the square mass against the outer stop, give ...

Complete Rotational System 012-05293F 28 Procedure Accounting For Friction Because the theory used to find the rotational inertia experimentally does not include friction, it will be compensated for in this experiment by finding out how much mass over the pulley it takes to over-come kinetic frictio...

012-05293F Complete Rotational System 29 Analysis 1. Calculate the rotational inertias: • Subtract the “friction mass” from the hanging mass used to accelerate the apparatus to determine the mass, m, to be used in the equations. • Calculate the experimental values of the rotational inertia and recor...

012-05293F Complete Rotational System 31 Experiment 5: Rotational Inertia of Disk and Ring EQUIPMENT REQUIRED - DataStudio Program - Mass and Hanger Set - PASCO Interface (see Note) - Paper Clips (for masses < 1 g) - Rotational Inertia Accessory (ME-8953) - Balance - Photogate/Pulley System - Cal...

012-05293F Complete Rotational System 33 Measurements for the Experimental Method Accounting For Friction Because the theory used to find the rotational inertia experimentally does not include friction, it will be compensated for in this experiment by finding out how much mass over the pulley it tak...

Complete Rotational System 012-05293F 34 Measure the Radius 1. Using calipers, measure the diameter of the cylinder about which the thread is wrapped and calcu- late the radius. Record in Table 5.2. Finding the Acceleration of the Disk Alone Since in Finding the Acceleration of Ring and Disk the dis...

012-05293F Complete Rotational System 37 Experiment 6: Rotational Inertia of Disk Off-Axis (Fixed/Rotating) EQUIPMENT REQUIRED - DataStudio Program - Calipers - PASCO Interface (See Note) - Mass and Hanger Set - Rotational Inertia Accessory (ME-8953) - Paper Clips (for masses < 1 g) - Photogate/P...

Complete Rotational System 012-05293F 38 Applying Newton’s Second Law for the hanging mass, m, gives (See Figure 6.1) Solving for the tension in the thread gives: Once the linear acceleration of the mass (m) is determined, the torque and the angular acceleration can be obtained for the calculation o...

012-05293F Complete Rotational System 39 Measurements For the Experimental Method Accounting For Friction Because the theory used to find the rotational inertia experimentally does not include friction, it will be compensated for in this experiment by finding out how much mass over the pulley it tak...

Complete Rotational System 012-05293F 40 Measure the Radius 1. Using calipers, measure the diameter of the cylinder about which the thread is wrapped and calcu- late the radius. Record in Table 6.2. Finding the Acceleration of Track Alone Since in Finding the Acceleration of Disk and Track the track...

012-05293F Complete Rotational System 41 Experiment 7: Conservation of Angular Momentum EQUIPMENT REQUIRED - DataStudio Program - PASCO Interface - Rotational Inertia Accessory (ME-8953) - Balance - Rotating Platform (ME-8951) - Photogate/Pulley System Purpose A non-rotating ring is dropped onto a r...

Complete Rotational System 012-05293F 42 Procedure 1. Hold the ring just above the center of the disk. Give the disk a spin using your hand.2. Start recording data. After about 25 data points have been taken, drop the ring onto the spinning disk. See Figure 7.2. 3. Continue to take data after the co...

012-05293F Complete Rotational System 45 Technical Support Feed-Back If you have any comments about this product or this manual please let us know. If you have any suggestions on alternate experiments or find a problem in the manual please tell us. PASCO appreciates any customer feed-back. Your inpu...