- #1
bayan
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We have done an experimnet latly in which we did an investigation on
m1Ug=4Pie^2m(2)r m2/ T^2
We drew the graphs of the values that we found, then we drew the Log values to fing Gradiant to find the power of proportionality.
in our experiment gradiant of my Log values were T prop m2^.53 T prop R^.508 and T prop m1^-.35
using math I got got
T^2 m1Ug =4pie^2 m2 r
T^2 = 4pie^2 m2 r / m1Ug
T = 2pie Root m2r/ root m1 Ug
Which makes it
T prop m1^.5 or root m2
same for R
and ^-.5 for m1 or 1/root m1
does that seem good? even though keplers third law stats T^2 is prop to r^3
m1Ug=4Pie^2m(2)r m2/ T^2
We drew the graphs of the values that we found, then we drew the Log values to fing Gradiant to find the power of proportionality.
in our experiment gradiant of my Log values were T prop m2^.53 T prop R^.508 and T prop m1^-.35
using math I got got
T^2 m1Ug =4pie^2 m2 r
T^2 = 4pie^2 m2 r / m1Ug
T = 2pie Root m2r/ root m1 Ug
Which makes it
T prop m1^.5 or root m2
same for R
and ^-.5 for m1 or 1/root m1
does that seem good? even though keplers third law stats T^2 is prop to r^3
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