Data Analysis: 1. For procedure (4), calculate the position of the third clamp using the second condition for equilibrium and compare with the experimental result by finding the percent difference. |x, The % difference = X expt -Xtheo | The second conditien: x100% 27(abautanyarisof rolakan)=0 avg Since the force acting on the stick by the fulcrum is unknown, simplify your calculation by calculating the torques about this point. 2. For procedure (5), calculate the position of the second clamp using the second condition for equilibrium and compare with the experimental result by finding the percent difference. By the same reason as in Data Analysis 1, calculate the torques about the fulcrum. First coailion: 3. For procedure (6), calculate the upward force provided by the fulcrum using the first condition for equilibrium and compare with the experimental result by finding the percent- こO difference. 4. For procedure (7), calculate the upward force provided by the spring balance using the second condition for equilibrium and compare with the experimental result by finding the percent difference. dh tha inn halonanainn the 3. X. 40 50 30 10 Figure 4 100 g 7. Place a clamp with a hanging mass of 300 g at the 30.0 cm mark of the half-meter stick (Figure 5). Place the second clamp at the 5.0 cm mark on the fulcrum and the third clamp at the 40.0 cm mark with a hook upward. Hang the upward hook to a spring balance and find the reading on the balance. Be sure to keep the half-meter stick horizontal. with the fulcrum at 5cm and 3009. plus hanger at 30cm. The balance ate's 40 emreads 2.6 N. bas2 10 20 4 50 E. 300g Figure 5 8. Interchange the spring balance with the fulcrum and read the spring

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Data Analysis: 1. For procedure (4), calculate the position of the third clamp using the second condition for equilibrium and compare with the experimental result by finding the percent difference. |x, The % difference = X expt -Xtheo | The second conditien: x100% 27(abautanyarisof rolakan)=0 avg Since the force acting on the stick by the fulcrum is unknown, simplify your calculation by calculating the torques about this point. 2. For procedure (5), calculate the position of the second clamp using the second condition for equilibrium and compare with the experimental result by finding the percent difference. By the same reason as in Data Analysis 1, calculate the torques about the fulcrum. First coailion: 3. For procedure (6), calculate the upward force provided by the fulcrum using the first condition for equilibrium and compare with the experimental result by finding the percent- こO difference. 4. For procedure (7), calculate the upward force provided by the spring balance using the second condition for equilibrium and compare with the experimental result by finding the percent difference. dh tha inn halonanainn the

Transcribed Image Text:

3. X. 40 50 30 10 Figure 4 100 g 7. Place a clamp with a hanging mass of 300 g at the 30.0 cm mark of the half-meter stick (Figure 5). Place the second clamp at the 5.0 cm mark on the fulcrum and the third clamp at the 40.0 cm mark with a hook upward. Hang the upward hook to a spring balance and find the reading on the balance. Be sure to keep the half-meter stick horizontal. with the fulcrum at 5cm and 3009. plus hanger at 30cm. The balance ate's 40 emreads 2.6 N. bas2 10 20 4 50 E. 300g Figure 5 8. Interchange the spring balance with the fulcrum and read the spring