Solving Integral for Falling Ball in Shampoo: dv/v

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SUMMARY

The discussion focuses on solving the differential equation for a ball falling through shampoo, where the drag force is defined as F=6.5v. The equation mdv/dt=6.5v is manipulated to isolate v, leading to the integral form dv/v=(6.5/m)(dt). The solution involves integrating both sides, resulting in ln|v|=(6t/m)+C, which simplifies to v=Ke^(6t/m) after applying properties of logarithms and exponentials. The effects of gravity are ignored in this analysis.

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UrbanXrisis
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say a ball falling through shampoo had a drag force of F=6.5v

the differential equation for the objects motion is:

mdv/dt=6.5v

to solve it, I get all of the v value on one side and integrate them:

dv/v=(6.5/m)(dt)
integral[dv/v]=integral[(6.5/m)(dt)]
I know that integral[(6.5/m)(dt)] becomes 6.5t/m+c, but what will happen to the dv/v?
 
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How about mg ?
 
ignoring the effects of gravity, sry
 
UrbanXrisis said:
say a ball falling through shampoo had a drag force of F=6.5v

the differential equation for the objects motion is:

mdv/dt=6.5v

to solve it, I get all of the v value on one side and integrate them:

dv/v=(6.5/m)(dt)
integral[dv/v]=integral[(6.5/m)(dt)]
I know that integral[(6.5/m)(dt)] becomes 6.5t/m+c, but what will happen to the dv/v?

the indefinite integral of dx/x is ln|x|+C

i guess if you are looking at this as a seperable differential equation you'd have

ln|v|=(6t/m)+C
|v|=e^((6t/m)+C)
|v|=e^(6t/m) * e^C
if K = +,- e^C
v=Ke^(6t/m)

i don't know, is that what you were looking for?
 
Last edited:
\int \frac{1}{v}dv=ln |v|
 

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