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GIZMOS+A X GIZMOS+A X M Your answe *Course Her X Course Her X Course Her X 41520117 ( X SPH4U-07: X + V X -
GIZMOS+A X GIZMOS+A X M Your answe *Course Her X Course Her X Course Her X 41520117 ( X SPH4U-07: X + V X - C coursehero.com/u/file/78406824/GIZMOSAtwoodMachineLab-Answerspdf/?justUnlocked=1 . . . GIZMOS+Atwood+Machine+Lab_Answers.pdf 7 Helpful $ 1 Unhelpful Math Solver Search this document Q 5 / 7 Fit to width v ... a K Enter a problem Is this document missing answers? Answer Get Answers Crop or click to get answers and explanations from our expert tutors To minimize the force required to Basic ESII move the elevator... Total Total Calculated Final Measured Mass A Mass B Time mass force acceleration velocity acceleration sin cos + X 1.0 kg 3.0 kg 4kg 19.62 N 4.91 m/s 2 3.13m/'s 0.64s 4.89m/s 2 View answer - 02 VO 2.5 kg 3.5 kg 6kg 9.81N 1.64 m/'s 2 1.80m/'s 1.10s 1.64m/s^2 4.0 kg 5.0 kg 9kg 9.81N 1.09m/'s^2 1.48m/'s 1.35s 1.10m/s^2 6kg 39.24N 6.54m/'s 2 6.54 m's 0.55s 6.58m/s^2 S 1.0 kg 5.0 kg 6. Analyze: How well did your calculated values for acceleration match up with the measured Solve values? What are the possible sources of error? | The calculated acceleration was very close to the measured acceleration, but not equal. Source of error came from the different equations used to calculate each Powered by Symbolab acceleration and that the numbers were rounded early in the process. Projectiles-lab_ek.docx image_123927839.JPG Show all X E ENG 10:50 PM Q Search 9 myhp US 2023-04-08GIZMOS+A X GIZMOS+A X M Your answe *Course Her X Course Her X Course Her X 41520117 ( X SPH4U-07: X + V X - C coursehero.com/u/file/78406824/GIZMOSAtwoodMachineLab-Answerspdf/?justUnlocked=1 . . . GIZMOS+Atwood+Machine+Lab_Answers.pdf 7 Helpful $ 1 Unhelpful Math Solver Search this document Q 5 / 7 Fit to width v ... a Enter a problem Is this document missing answers? Get Answers Crop or click to get answers and explanations from our expert tutors Basic ESII 7. Explore: Click Reset. Select the BAR CHART tab and turn on Show numerical values. Set Mass A and Mass B to 2.0 kg. Click Play. On the SIMULATION pane you will notice that, while the objects do not move, a small Pull button appears below mass A. Click this button sin cos + X to apply an instantaneous force on mass A. Mass A: 0.75m/'s Mass B: 0.75m/'s 02 VO A. What are the velocities of masses A and B? B. Are masses A and B accelerating? Explain how you know. S Both mass A and B are accelerating because there is a change in velocity Solve 8. Think and discuss: Suppose you were designing an elevator. How could you use the concept of an Atwood machine to minimize the force required to move the elevator up and down? If possible, discuss your answer with your classmates and teacher. Powered by Symbolab The elevator's weight would have to be similar to its mass. If the weight and mass of the elevator were equal, it could never move upwards, only downward. If the elevator went down, it could not be able to go back up. Projectiles-lab_ek.docx image_123927839.JPG Show all X Q Search hyhp E ENG 10:51 PM US 2023-04-08
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