Answer:
q₃ is located at X= - 0.144m
Step-by-step explanation:
Coulomb law:
Two point charges (q1, q2) separated by a distance (d) exert a mutual force (F) whose magnitude is determined by the following formula:
F=K*q₁*q₂/d² Formula (1)
F: Electric force in Newtons (N)
K : Coulomb constant in N*m²/C²
q₁, q₂: Charges in Coulombs (C)
d: distance between the charges in meters(m)
Equivalence
1uC= 10⁻⁶C
Data
F=0.66 N
K=8.99x10⁹N*m²/C²
q₁ = +3.00 μC = +3.00 *10⁻⁶C
q₂= -5.00 μC = -5.00 *10⁻⁶C
q₃= -8.00 μC= -8.00 *10⁻⁶C
d₁₂= 0.2m: distance between q₁ and q₂
Fn=7 N: Net force on q₁
Calculation of the magnitude of the forces exerted on q₁
F₂₁ = K*q₁*q₂/d₁₂² = (8.99 * 10⁹ * 3.00 * 10⁻⁶ * 5.00 * 10⁻⁶)/(0.2)² = 3.37 N
F₃₁ = K*q₁*q₃/d₁₃² = (8.99 * 10⁹ * 3.00 * 10⁻⁶ * 8.00 * 10⁻⁶)/(d₁₃)² = 0.21576/(d₁₃)² N
Calculation of the distance d₁₃ between q₁ and q₃
In order for the net force to be negative on the x axis, the charge q₃ must be located on the x axis to the left of the charge q₁
F₂₁: It is a force of attraction and goes to the right(+)
F₃₁: It is a force of attraction and goes to the left(-)
-Fn₁ = F₂₁ - F₃₁
-7 = 3.37 - 0.21576/(d₁₃)²
3.37 + 7 = 0.21576/(d₁₃)²
10.37*(d₁₃)²=0.21576
(d₁₃)² = (0.215769 )/ (10.37)
(d₁₃)² = 20.8 * 10⁻³
d₁₃=0.144m
q₃ is located at X= - 0.144m