For a certain run, the following data is obtained when filling up Table 2 of the manual: Mass of cart = 700 g, hanging mass = 29 g. distance travelled by the cart = 53 cm, initial speed of the cart = 0.34 m/s, Final speed of the cart = 0.84 m/s, Calculate the percent difference between change in potential energy and change in Kinetic Energy.

For a certain run, the following data is obtained when filling up Table 2 of the manual: Mass of cart = 700 g, hanging mass = 29 g. distance travelled by the cart = 53 cm, initial speed of the cart = 0.34 m/s, Final speed of the cart = 0.84 m/s, Calculate the percent difference between change in potential energy and change in Kinetic Energy.

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For a certain run, the following data is obtained when filling up Table 1 of the manual: Mass of cart =
250 g. hanging mass = 26 g, distance travelled by the cart = 53 cm, initial speed of the cart = 0.3
m/s, Final speed of the cart = 0.87 m/s, Area under the F vs X graph = 0.100 Nm. Calculate the
percent difference between Work and Kinetic Energy.
For a certain run, the following data is obtained when filling up Table 2 of the manual: Mass of cart =
700 g. hanging mass=29 g, distance travelled by the cart = 53 cm, initial speed of the cart = 0.34
m/s, Final speed of the cart = 0.84 m/s, Calculate the percent difference between change in
potential energy and change in Kinetic Energy.
For a certain run, the following data is obtained when filling up Table 3 of the manual: Mass of cart =
600 g. hanging mass = 95 g, distance travelled by the cart = 46 cm, initial speed of the cart = 0.31
m/s, Final speed of the cart = 0.71 m/s, mass of friction block = 330 g. coefficient of kinetic friction
= 0.20 Calculate the percent difference between change in (Potential + Kinetic) Energy and Friction
Work.

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