https://docs.google.com/open?id=0B7dQuiyiP5a-YjVjMzJjMzEtNWFmMS00ZmFmLWEwMjgtZDQ0Y2JmZGVlODJl
In this lab, we used equations and measurements to find the oscillation period and the force constant. We used the following tools:
meter stick
weights
a spring
We also used the following equations:
PE=1/2KX^2
KE=1/2MV^2
PEg=MGH
First, we measured the spring displacement, the mass, and the time it took the spring to complete ten oscillations. It took 8.5 seconds to complete ten oscillations, the mass was 55 grams, and the displacement was 14 cm. After we found the gravitational potential energy, we used that to find the force constant, using our formulas. We found that the time period for one oscillation is 0.85 seconds, and the force constant is 77.
In this lab, we used equations and measurements to find the oscillation period and the force constant. We used the following tools:
meter stick
weights
a spring
We also used the following equations:
PE=1/2KX^2
KE=1/2MV^2
PEg=MGH
First, we measured the spring displacement, the mass, and the time it took the spring to complete ten oscillations. It took 8.5 seconds to complete ten oscillations, the mass was 55 grams, and the displacement was 14 cm. After we found the gravitational potential energy, we used that to find the force constant, using our formulas. We found that the time period for one oscillation is 0.85 seconds, and the force constant is 77.
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