Caution Make sure that your printed Page #1 is OK before you close the Capstone. All the data
pdf
keyboard_arrow_up
School
Florida Atlantic University *
*We aren’t endorsed by this school
Course
ORGANIC CH
Subject
Mathematics
Date
Feb 20, 2024
Type
Pages
2
Uploaded by CommodoreBoulderOctopus38
rk to be done: Wo 1. 2 FS Print Graph Page #1(similar to Fig. 3): d o bottom Click “Print” icon in the Tool Bar, select # of pages to be printed, cllck‘“P”m at the bottom. Let your TA check your Graph Page #1. If it is OK, your TA will sign it. Caution: Make sure that your printed Page #1 is OK before you close the Capstone. All the data collected in Experiment 6 will be lost when the Capstone is closed! Close PASCO Capstone by clicking the red-cross at the upper corner, then select “discard”. Tum off PASCO 850 interface and shut down the computer. Clean up your bench, Data analysis 1. Caleulate <f;,y,.) > , ., the average value of the three mean values in columns 1, 3 and § in Table on Graph Page #1. Record the calculated data in Table 2. Caleulate <t,,,,.,., >, i.e., the average value of the three mean values in columns 2, 4 and 6 in Table on Graph Page #1. Record the calculated data in Table 2. Calculate < Liietastiey >+ i-€., the average value of the three mean values in columns 7,9 and 11 in Table on Graph Page #1. Record the calculated data in Table 2. Caleulate <ty,,/,.,.) > , i.e., the average value of the three mean values in columns 8, 10 and 12 in Table on Graph Page #1. Record the calculated data in Table 2. Table 2 Measured average time of ball(s) passing the photogates <y(etasticy > (8) <lyetagiey > (8) <netasticy > () <y imetasticy > (8) .0260 0700 BAHE ,0350] , [501 Use data in Tables 1 and 2 as well as Eqgs. (4) and (7) to calculate the speed(s) of the ball(s) before and after elastic/inelastic collision. Record the results in Table 3. Table 3 Measured speed(s) of the ball(s) before and after elastic/inelastic collision v, (mfs) v} (mls) Vg (mis) | v (mls) 1.212 15212 . 93785 | s ¥zFg | Use Egs. (1), (2), (6), and the data in Tables 1 and 3 to calculate the quantities listed in Tables 4 to 8. Table4 Total energy of ball #1 in Measurement #1 (elastic collision) total energy of ball #1 at | total energy of ball #1 just % \ Is the total energy \ position A _(J) before collision (J) difference con5§r\'ed'? .050Z O Ho [ L8 T SN0 | S\:\J\\;\\v‘k A Table 5 Momentum conservation in Measurement #1 (elastic collision) momentum before momentum after % \ Is the momen(umj collision (kg m/s) collision (kg m/s) | difference conserved? Ball #1 +:SS 0 Ball #2 Q s 11551 ¢ \ total « 159\ 11951 i D \ \fl S ceeeett11111IILEEECCCCCCORPPCPPPCRCQTBSC @ -
M“’Lflflwion] in Measurement #1 (elastic collision) Kinetic energy kinetic energy % s the kinetic energy l bctorAc collision ) after collision (J) | difference conserved? Ball #1 0990 5 N : Ball #2 Q - 0940 (\) jg S total - O9GuQ AT TTEN) Table 7 Momentum conservation in Measurement #2 (inelastic collision) momglltum before momentum after % Is the momentum‘] collision (kg m/s) collision (kg m/s) | difference conserved? Ball #1 e D . < | oac#l | L oos< ™A Ball #2 o _O0E T 2 elDO total R - 005 75 /; Table8 Kinetic energies in Meas urement #2 (inelastic collision) kinetic energy kinetic energy % Is the kinetic energy before collision ) after collision (J) | difference conserved? Ball #1 NS5 ‘O0QY . Ball #2 © .00 5% 230/, N total OS5 P3 coos o Lab report on Experiment 6 Graph Page #1 (similar to Fig. 3) should be included in your lab report. Tables 1 to 8 should be included in your lab report. It is required that the answers to the The required other contents and fo You can tear those pages out of (raw) data and analyzed data, an your lab TA. questions (see below) should be included in your lab report. rmat for your lab report can be found in the syllabus. he lab manual as a part of your lab report, which contain measured SWers to questions. The data sheets must be checked and signed by N N Questions and exercises AstroBlaster -——--- the Multiple Collision_Accelerator ) (This toy is available in the lab, play it before you answer the following questions). 1. Take the smallest ball (red) out of the AstroBlaster and hold it at arm’s length from your body, then drop it at — Smallest ball (red) height /1, The ball will be bounced upward after it hits the ground and reaches a height A, . Use the energy and momentum conservation laws to ‘ prove thath, < Figure 4. AstroBlaster ; : \ |
Your preview ends here
Eager to read complete document? Join bartleby learn and gain access to the full version
- Access to all documents
- Unlimited textbook solutions
- 24/7 expert homework help