Please answer part d with good explanation Two charged particles are held in place in the x-y plane. Particle 1 has charge q₁ = 3µC and isin the location (x₁ = 2 cm, y₁ = 4.3 cm) and particle 2 has a charge of q₂ = −4µC and is at thelocation (x₂ = −1.8 cm, y₂0.4 cm).=12a. Draw the location of each of these charges and draw the vector r₁2 pointing fromparticle 1 to particle 2.AFind the unit vector r (i.e. in terms of î & ĵ).12b.c. Find the electrostatic force on particle 2 due to particle 1 in unit vector notation.d. Where would you need to place a third particle with charge q3 = 1.2µC in order for thetotal force on particle 2 due to q₁ and q3 to equal zero?

Answered: Image /qna-images/answer/5ecbed3f-1073-4e4b-92bf-97bce0a1f8b8.jpg

Two charged particles are held in place in the x-y plane. Particle 1 has charge q₁ = 3µC and is in the location (x₁ = 2 cm, y₁ = 4.3 cm) and particle 2 has a charge of q₂ = -4µC and is at the location (x₂ = -1.8 cm, y₂ = 0.4 cm). a. Draw the location of each of these charges and draw the vector r12 pointing from particle 1 to particle 2. ^ Find the unit vector r (i.e. in terms of î & ĵ). 12 b. c. Find the electrostatic force on particle 2 due to particle 1 in unit vector notation. d. Where would you need to place a third particle with charge q3 total force on particle 2 due to q₁ and q3 to equal zero? = 1.2μC in order for the

Two charged particles are held in place in the x-y plane. Particle 1 has charge q₁ = 3µC and is in the location (x₁ = 2 cm, y₁ = 4.3 cm) and particle 2 has a charge of q₂ = -4µC and is at the location (x₂ = -1.8 cm, y₂ = 0.4 cm). a. Draw the location of each of these charges and draw the vector r12 pointing from particle 1 to particle 2. ^ Find the unit vector r (i.e. in terms of î & ĵ). 12 b. c. Find the electrostatic force on particle 2 due to particle 1 in unit vector notation. d. Where would you need to place a third particle with charge q3 total force on particle 2 due to q₁ and q3 to equal zero? = 1.2μC in order for the