This problem asks for the total energy stored in a fully charged mobile phone battery, given its voltage and capacity rating.
The electrical energy (\(E\)) stored in a battery is the product of its voltage (\(V\)) and the total charge (\(Q\)) it can deliver.
\[ E = V \times Q \]The capacity of the battery is given in milliampere-hours (mAh), which is a unit of electric charge. To calculate the energy in the SI unit, Joules (J), we must first convert the charge from mAh to Coulombs (C).
The conversion is based on the definition of an Ampere (\(1 \text{ A} = 1 \text{ C/s}\)) and an hour (\(1 \text{ hr} = 3600 \text{ s}\)):
\[ 1 \text{ mAh} = 10^{-3} \text{ A} \times 3600 \text{ s} = 3.6 \text{ C} \]Step 1: List the given values from the problem statement.
Step 2: Convert the battery capacity from mAh to the SI unit of charge, Coulombs (C).
First, convert milliampere-hours (mAh) to ampere-hours (Ah):
\[ Q_{rated} = 5800 \, \text{mAh} = 5.8 \, \text{Ah} \]Next, convert ampere-hours (Ah) to Coulombs (C), knowing that \( 1 \, \text{Ah} = 3600 \, \text{C} \):
\[ Q = 5.8 \, \text{Ah} \times 3600 \, \frac{\text{C}}{\text{Ah}} \] \[ Q = 20880 \, \text{C} \]Step 3: Calculate the total energy stored in the battery.
Using the formula \( E = V \times Q \), we substitute the given voltage and the calculated charge in Coulombs.
\[ E = 4.2 \, \text{V} \times 20880 \, \text{C} \]Performing the final multiplication:
\[ E = 87696 \, \text{J} \]The energy can also be expressed in kilojoules (kJ):
\[ E = \frac{87696}{1000} \, \text{kJ} = 87.696 \, \text{kJ} \]The total energy stored in the battery when fully charged is 87696 J or approximately 87.7 kJ.
A point charge $ +q $ is placed at the origin. A second point charge $ +9q $ is placed at $ (d, 0, 0) $ in Cartesian coordinate system. The point in between them where the electric field vanishes is:
Consider two infinitely large plane parallel conducting plates as shown below. The plates are uniformly charged with a surface charge density \( +\sigma \) and \( -\sigma \). The force experienced by a point charge \( +q \) placed at the mid point between the plates will be: 

