Atwood machine lab answers
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An Atwood machine consists of two masses attached to a string draped over a pulley. 1 Ideally, both the string and pulley are massless and the pulley is frictionless. Adding the forces on each mass gives us the following picture: We can then solve for (the magnitude of) T 1 and ay
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In the 2015 and 2016 edition, lab 0 was updated by Shirin Moza↵ari. A question related to graphing was added to Prelab1. E↵ect of friction was added to the last two parts of lab 3. Some clariﬁcations were added to lab 6. In the 2017 edition, new cameras were installed for lab 1 and the lab 1 on the manual was updated accordingly.
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Atwood's Machine Lab Report . Abstract This week, we participated in the "Atwood's Machine" lab. This experiment was to help us better understand the relationship between mass and acceleration, using the Photogate system. My lab team and I concluded from the results of the Photogate, that the weight of the masses and acceleration were indirectly related to one another.
The Atwood Machine Lab Report is to be completed individually and submitted in word processed form by Monday, January 18, 2016. Projectile Extra Credit Download and complete the following Honors Physics Projectile Extra Credit , complete it and turn it in by the beginning of class time on Friday, December 18, 2015. General lab safety guidelines should always be observed. Preparation and Prelab Prelab Activities The following activities are optional and could be conducted to assess students’ prior knowledge, skill levels, and understanding of key concepts. Setup the modified Atwood machine and pose questions such as those suggested below
1. Suppose an Atwood machine and modified Atwood machine are constructed with masses Ml and Ma as shown in the following figure. Ml is triple the magnitude of Ma for both machines. Assume a frictionless surface for the modified Atwood machine shown and a pulley system with frictionless and massless For Atwood's Machine, you plotted (hopefully) two sets of y data against the same x data. You should describe both of these completely as mentioned above and as exemplified in many of the prelabs up to this point as well as in Data & Graphs and MSExcel. For Data & Graphs you had: Displacement = 0.0465 [ms-2] * Time 2 + 0.012 [m];
For Atwood's Machine, you plotted (hopefully) two sets of y data against the same x data. You should describe both of these completely as mentioned above and as exemplified in many of the prelabs up to this point as well as in Data & Graphs and MSExcel. For Data & Graphs you had: Displacement = 0.0465 [ms-2] * Time 2 + 0.012 [m];In this page you can learn important machine tool questions answers, solved machine tool questions answers,machine tool objective questions etc. It is easy to understand and help you to improve your skill.
Explore forces, energy and work as you push household objects up and down a ramp. Lower and raise the ramp to see how the angle of inclination affects the parallel forces acting on the file cabinet. Graphs show forces, energy and work. 9-76. Real Atwood Machine. speed, angular speed, tension, and time of descent. 9-81. Modified Real Atwood with single mass over massive cylinder pulley. acceleration, tension, speed at bottom, value when angle is 90 and cylinder is light. Problems. Ballistic Pendulum : Week 10: Ch.12 Static Equilibrium and Elasticity: Bending Lab: Week : Ch. 11 ... Compare these to the calculated answers, which are: 1.) a = 0.1 18 m/s² 2.) a = 0.156 m/s² 3.) a = 0.192 m/s² 4.) a = 0.228 m/s² 5.) a = 0.316 m/s² 6.) a = 0.426 m/s² 7.) a = 0.891 m/s² 8.) a = 1.40 m/s² 9.) a = 1.96 m/s² 10.) a = 3.27 m/s² And finally, putting these into the equation for %-error below, we can then get our answers...
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