stylez03
Feb21-07, 04:42 PM
1. The problem statement, all variables and given/known data
A small sphere with mass 2.90 g hangs by a thread between two large parallel vertical plates 0.05 m apart. The plates are insulating and have uniform surface charge densities + \sigma and - \sigma . The charge on the sphere is q = 9.70×10^6 C.
What potential difference between the plates will cause the thread to assume an angle of 30.0 deg with the vertical
2. Relevant equations
Delta(V) = Ed = \frac {F_{elec} * d} {q} = \frac {(mg)*(d)*tan(30)} {q}
3. The attempt at a solution
\frac {(2.90*8.90)*(0.05)*tan(30)} {9.70*10^{-6}}
The online program complains that its wrong, I'm wondering is the equation correct?
A small sphere with mass 2.90 g hangs by a thread between two large parallel vertical plates 0.05 m apart. The plates are insulating and have uniform surface charge densities + \sigma and - \sigma . The charge on the sphere is q = 9.70×10^6 C.
What potential difference between the plates will cause the thread to assume an angle of 30.0 deg with the vertical
2. Relevant equations
Delta(V) = Ed = \frac {F_{elec} * d} {q} = \frac {(mg)*(d)*tan(30)} {q}
3. The attempt at a solution
\frac {(2.90*8.90)*(0.05)*tan(30)} {9.70*10^{-6}}
The online program complains that its wrong, I'm wondering is the equation correct?