Question

3. A 4.1 x 10-15 C charge is able to pick up a bit of paper when it is initially 1.0 cm above the paper. Assume an induced charge on the paper of the same magnitude, find the weight of the paper in newtons. Remember to convert the distance to meters and show your work here.

Answer 1

`\mathbf{1.51*10^(-15)N}`

Step-by-step explanation:

The computation of the weight of the paper in newtons is shown below:

On the paper, the induced charge is of the same magnitude as on the initial charges and in sign opposite.

Therefore the paper charge is

`q_(paper)=-4.1*10^(-15)C`

Now the distance from the charge is

`r=1cm=0.01m`

Now, to raise the paper, the weight of the paper acting downwards needs to be managed by the electrostatic force of attraction between both the paper and the charge, i.e.

`mg=(k_(e)q_(1)q_(2))/(r^(2))`

`\Rightarrow W=mg`

`=(9*10^(9)*(4.1*10^(-15))^(2))/(0.01^(2))`

`=\mathbf{1.51*10^(-15)N}`