PASCO ME-6569 - Manuals

RMS/IDS Kit 012–06408A 2 IDS track IDS track pulleybracket IDS track IDS cart cart—string bracket Setup Equipment 1. Mount the Rotary Motion Sensor (RMS) on the IDS track with theIDS Mount Accessory so the RMS can be used like a Smart Pulley(see IDS Mount Instruction Sheet and Figure 3). 2. Mount th...

012–06408A RMS/IDS Kit 3 cart—string bracket IDS Mount Accessory RMS to computerinterface Thread is free of obstruction. Figure 3 Completed assembly 8. If necessary, adjust the tension of the string by moving the IDStrack pulley bracket along the track. Science Workshop 1. Insert the digital plugs o...

RMS/IDS Kit 012–06408A 4 ➤ Note: The manual has been written with the assumption that the user has a basic familiarity with Science Workshop and hasaccess to the “User’s Guide” for Science Workshop. Users cangain basic skills with Science Workshop by viewing the trainingvideo and by doing the tutori...

012–06408A RMS/IDS Kit 5 IDS track IDS cart AdjustableEnd Stop IDS track pulley bracket cart— string bracket IDS Mount Accessory RMS large pulley of the3-step pulley thread to computerinterface Experiment 1: Correlation of velocity and acceleration vectors for a cart undergoing an elastic collision ...

RMS/IDS Kit 012–06408A 6 Collect the data 1. Position the cart at the end of the track with the RMS. 2. Start recording data. 3. Give the cart a gentle push towards the end stop. (Use the amount of force needed forsmooth movement of the cart.) 4. After the cart rebounds from the end stop, stop recor...

012–06408A RMS/IDS Kit 7 Purpose The purpose of the experiment is to quantitatively compare magnitude of the momentum of amoving cart with the impulse of its inelastic collision with a stationary object. Materials and Equipment Required • Rotary Motion Sensor (RMS) (CI-6538) • ±50 Force Sensor (CI-6...

012–06408A RMS/IDS Kit 9 Analyze the Data 1. Use the statistics function of Science Workshop to determine the maximum velocity of the cart. 2. Determine the mass of the cart 3. Calculate the momentum of the cart. 4. Use the statistics function to integrate the area under the curve. 5. Select the por...

012–06408A RMS/IDS Kit 11 Purpose The purpose of the experiment is to quantitatively and graphically demonstrate the conservationof momentum and the simultaneous loss of kinetic energy as a result of the collision of a cart witha cart at rest. Materials and Equipment Required • (2) Rotary Motion Sen...

RMS/IDS Kit 012–06408A 12 Procedure Part A — Inelastic collision of equal masses Set Up the Equipment 1. Mount the two Rotary Motion Sensors on the IDS track using the IDS Mount Accessories,and mount the two brackets with small pulley on the IDS track (refer to the page 2 of thismanual and Figure 3....

RMS/IDS Kit 012–06408A 14 • To set up the y-axis plot for Total Kinetic Energy, click on the Plot Input Menu button in the fourth y-axis plot and select calculations and the name for the kinetic energy calculation from the pop-up menu. Collect the Data 1. Place the carts as indicated in Figure 3.1. ...

012–06408A RMS/IDS Kit 15 m 1 v 1 m 2 v 2 m after v after m 1 v 1 + m 2 v 2 m after v after Part A Part B measured Part B — Inelastic collision of unequal masses 1 . Add a mass to cart 2 and repeat the data collection and analysis sections. ➤ Note: You will need to redefine the calculations in the E...

012–06408A RMS/IDS Kit 17 Purpose The purpose of the experiment is to quantitatively and graphically demonstrate the conservationof momentum and the simultaneous loss of kinetic energy as a result of the collision of a cart witha cart at rest. Materials and Equipment Required • (2) Rotary Motion Sen...

RMS/IDS Kit 012–06408A 18 Procedure  Set Up the Equipment 1 . Mount the two Rotary Motion Sensors on the IDS track using the IDS Mount Accessories,and mount the two brackets with small pulley on the IDS track (refer to the page 2 of thismanual and Figure 3.1). After the elastic collision, kinetic en...

012–06408A RMS/IDS Kit 23 Teacher’s Notes Experiment 1 Figure TN-1 Schematic representation of typical experimental results for Experiment 1. Questions 1 . Students can use the Smart Cursor to find the velocity and acceleration of the cart justbefore the collision. 2 . During the collision, the velo...

RMS/IDS Kit 012–06408A 24 Question 1 . The students’ data should show that the momentum of the cart equals the impulse of the inelastic collision: mv = Fdt t 1 t 2 . selected area forintegration value Formula for smoothing data (set in the Experimental Calculator): Force = smooth(8,@A.Force)Velocity...

012–06408A RMS/IDS Kit 25 Time (s) 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 0 10 20 30 40 R un # 3 sV e l1 ( c m /s) 0 10 20 30 40 R u n #3 sV e l3 ( c m /s) 0 0. 10 0. 2 0 R un #3 s M om entum 1 ( kg m /s 0 0. 0 2 0 0. 0 4 0 Ru n # 3 s T o tal K ineti c E n er g y 1 Exper...

RMS/IDS Kit 012–06408A 26 Figure TN-3 Typical experimental results from Part B of Experiment 3 (smoothed). collision starts Part B—Inelastic collision of carts with unequal mass (m 1 =½m 2 ) Equations entered into the Equation Field of the Experimental Calculator: Formulae for Momentum and Total Kin...

RMS/IDS Kit 012–06408A 28 Experiment 4 Equations entered into the Equation Field of the Experimental Calculator: Formulae for Momentum and Total Kinetic Energy: • Total Momentum , Part A: .51*@1.linVel*.01+.46*@3.linVel*.01 • Total KE , Part A: .51*(.5*(@1.linVel*.01)^2)+.5*(.46*(@3.linVel*.01)^2)  ...

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