Part A = the net number is zero

What can you say about the net number of electric field lines passing through a Gaussian surface located completely within the region between a set of oppositely charged parallel plates?

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Part A = 0.51 m

Part B = 1.3 m/s

Part C = 0.33 pC

A particle with a mass of 2.0*10^{−5} kg and a charge of +2.9 μC is released in a (parallel plate) uniform horizontal electric field of 11 N/C.

How far horizontally does the particle travel in 0.80 s?

What is the horizontal component of its velocity at that point?

If the plates are 5.8 cm on each side, how much charge is on each? width=

Part A = Φ = q / (6ε_{0})

Part B = Φ = q / (6ε_{0})

A point charge of magnitude q is at the center of a cube with sides of length L.

What is the electric flux Φ through each of the six faces of the cube? Use ε_{0} for the permittivity of free space.

What would be the flux Phi_{1} through a face of the cube if its sides were of length L_{1}?