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sighman
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In my lab, we were spinning a mass (stopper) in a uniform circular motion attached to a string. The string went through a hollow tube and at the other of the string, a weight was hanged. We were trying to find out how frequency of the revolution were affected by mass, radius and tension force (which was also the net force in this case). Attached is a picture because it worth a thousand words. We had to time how many seconds it took to take 20 cycles, which was our frequency.
c) use graphing techniques to determine the relationship (proportionality statement) between the frequency of revolution and each of the follwing
This part I understood, but I just added it in because it goes with the question (d) that I am having a hard time with. I had created the proportionality statements:
tension force ∝ frequency
r ∝ (1/frequency)
m ∝ (1/frequency)
d)Combine the three results from (c) to obtain an equation for the frequency in terms of tension, the radius and the mass. Check your equation using your data points.
Although there are variables, I have already discovered their values.
The given data is what I are the plotted points on my 3 graphs:
For graph 1: 0.98N=1.44 cyc./s 1.47N=1.77 cyc./s 1.96N=1.97 cyc./s
This is when comparing tension force to frequency. Mass and radius are constant @ .0165kg and 0.75m respectively.
For graph 2: 0.45m=1.82cyc./s 0.60m=1.6 cyc./s 0.75m=1.44 cyc./s
comparing radius to frequency. Mass and tension force are constant at .0165kg and .98N.
For graph 3: 0.0165kg=1.97cyc./s 0.033kg=1.41cyc./s 0.0495kg=1.15 cyc./s
comparing mass of the stopper to frequency. Radius and tension force are constant at 0.75m and 1.96N.
These are how I derived the proportionality statements.
Now, here is what I do not understand: how am I supposed to make an equation from frequency in terms of tension, radius or the mass from those proportionality statements and those graph points?
Fnet(centripetal) = mv^2 / r
Fnet=4π^2 mrf^2 <--- given in the textbook but it is introduced after question d, so I'm not sure
I just thought that the equation would be the first relevant equation, but how am I supposed to show how I to get to that step by combining the mass, radius, and tension force points from their points on each graph and proportionality statement.
-OR-
i use the equation Fnet(centripetal) = mv^2 / r
to get the equation
Fnet= m(d/t)^2 / r
Fnet= m(20(2πr) / t)^2 /r <--- I took out 20 /t because this was frequency
Fnet= m (f(2πr))^2 /r
Fnet= 4mf^2π^2r^2 /r
Fnet= 4π^2 mrf^2
Wierdly enough, it is the same equation in the next part (e)... I am wondering why on Earth would they give me the answer in the next question if they asked me to solve it here?
And in question (e), they expect me to have discrepencies between the equation I derive and the equation they give ("Compare this result (Fnet=4π^2 mrf^2) with the equation you derived in (d). Indicate the likely causes for any discrepancies")
c) use graphing techniques to determine the relationship (proportionality statement) between the frequency of revolution and each of the follwing
- The magnitude of tension force
- radius of the circle
- the mass of the object in motion
This part I understood, but I just added it in because it goes with the question (d) that I am having a hard time with. I had created the proportionality statements:
tension force ∝ frequency
r ∝ (1/frequency)
m ∝ (1/frequency)
Homework Statement
d)Combine the three results from (c) to obtain an equation for the frequency in terms of tension, the radius and the mass. Check your equation using your data points.
Although there are variables, I have already discovered their values.
The given data is what I are the plotted points on my 3 graphs:
For graph 1: 0.98N=1.44 cyc./s 1.47N=1.77 cyc./s 1.96N=1.97 cyc./s
This is when comparing tension force to frequency. Mass and radius are constant @ .0165kg and 0.75m respectively.
For graph 2: 0.45m=1.82cyc./s 0.60m=1.6 cyc./s 0.75m=1.44 cyc./s
comparing radius to frequency. Mass and tension force are constant at .0165kg and .98N.
For graph 3: 0.0165kg=1.97cyc./s 0.033kg=1.41cyc./s 0.0495kg=1.15 cyc./s
comparing mass of the stopper to frequency. Radius and tension force are constant at 0.75m and 1.96N.
These are how I derived the proportionality statements.
Now, here is what I do not understand: how am I supposed to make an equation from frequency in terms of tension, radius or the mass from those proportionality statements and those graph points?
Homework Equations
Fnet(centripetal) = mv^2 / r
Fnet=4π^2 mrf^2 <--- given in the textbook but it is introduced after question d, so I'm not sure
The Attempt at a Solution
I just thought that the equation would be the first relevant equation, but how am I supposed to show how I to get to that step by combining the mass, radius, and tension force points from their points on each graph and proportionality statement.
-OR-
i use the equation Fnet(centripetal) = mv^2 / r
to get the equation
Fnet= m(d/t)^2 / r
Fnet= m(20(2πr) / t)^2 /r <--- I took out 20 /t because this was frequency
Fnet= m (f(2πr))^2 /r
Fnet= 4mf^2π^2r^2 /r
Fnet= 4π^2 mrf^2
Wierdly enough, it is the same equation in the next part (e)... I am wondering why on Earth would they give me the answer in the next question if they asked me to solve it here?
And in question (e), they expect me to have discrepencies between the equation I derive and the equation they give ("Compare this result (Fnet=4π^2 mrf^2) with the equation you derived in (d). Indicate the likely causes for any discrepancies")
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