1. Two point charges, QA = +8 μC and QB = -5 μC, are separated by a distance r = 10 cm. What is the magnitude of the ka ikaika uila. The constant k = 8.988 x 109 Nm2C-2 = 9x109 Nm2C-2.
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ʻIke ʻia:
kauoha A (qA) = +8 μC = +8 x 10-6 C
Hoʻopiʻi B (qB) = -5 μC = -5 x 10-6 C
k = 9 x 109 Nm2C-2
ka mamao between charge A and B (rAB) = 10 kenimika = 0.1 m
makemake : The magnitude of the electric force
Lōlā:
Formula of Kānāwai Coulomb :
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The magnitude of the electric force :

2. Two charged particles as shown in figure below. QP = +10 μC and Qq = +20 μC are separated by a distance r = 10 cm. What is the magnitude of the electrostatic force.
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ʻIke ʻia:
Charge P (QP) = +10 μC = +10 x 10-6 C
Charge Q (QQ) = +20 μC = +20 x 10-6 C
k = 9 x 109 Nm2C-2
The distance between charge P and Q (rPQ) = 12 kenimika = 0.12 m = 12 x 10-2 m
Makemake ʻia: The magnitude of the electric force
Lōlā:

3. Three charged particles are arranged in a line as shown in figure below. Charge A = -5 μC, charge B = +10 μC and charge C = -12 μC. Calculate the net electrostatic force on particle B due to the other two charges.
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ʻIke ʻia:
Hoʻopiʻi A (qA) = -5 μC = -5 x 10-6 C
Hoʻopiʻi B (qB) = +10 μC = +10 x 10-6 C
Charge C (qC) = -12 μC = -12 x 10-6 C
k = 9 x 109 Nm2C-2
The distance between particle A and B (rAB) = 6 kenimika = 0.06 m = 6 x 10-2 m
The distance between particle B and C (rBC) = 4 kenimika = 0.04 m = 4 x 10-2 m
Makemake ʻia: The magnitude and the direction of net electrostatic force on particle B
Lōlā:
The net force on particle B is the vector sum of the force FBA exerted on particle B by particle A and the force FBC exerted on particle B by particle C.
The force FBA exerted on particle B by particle A :

The direction of the electrostatic force points to particle A (point to left).
The force FBC exerted on particle B by particle A :

The direction of the electrostatic force points to particle C (point to right).
The net electrostatic force on particle B :
FB =FAB - FBC = 675 N – 125 N = 550 Newtons.
The direction of the net electrostatic force on particle B points to particle C (points to the right).
4. +Q1 = 10 μC, +Q2 = 50 μC and Q3 are separated as shown in the figure below. What is the electrostatic charge on particle 3 if the net electrostatic force on particle 2 is zero.

ʻIke ʻia:
Hoʻouka 1 (q1) = +10 μC = +10 x 10-6 C
Hoʻouka 2 (q2) = +50 μC = +50 x 10-6 C
The distance between charge 1 and 2 (r12) = 2 kenimika = 0.02 m = 2 x 10-2 m
The distance between charge 2 and charge 3 (r23) = 6 kenimika = 0.06 m = 6 x 10-2 m
The net electrostatic force on particle 2 (F2) = 0
makemake : charge 3 (q3)
Lōlā:
The net force on particle 2 is the veme sum of the force F21 exerted on particle 2 by particle 1 and the force F23 exerted on particle 2 by particle 3.
The force F21 exerted on particle 2 by particle 1 :

The direction of the electrostatic force points to particle 3 (point to right).
The force F23 exerted on particle 2 by particle 3 : 
The direction of the electrostatic force points to particle 1 (point to left).
The net electrostatic force on particle 2 = 0 :
