Problem 1Three particles with charges q₁ = +14 nC, 92 = -24 nC, and q3 = +21 nC are arranged alonga straight line. Particle 2 is between 1 and 3, 120 mm from 1 and 160 mm from 3. Determinethe net force on particle 2.Problem 2For the circuit shown in Fig.1 below, C₁= 5µF, C₂ = 4µF, C3 = 6μF and AV = 65V. Find:(a) the equivalent capacitance, (b) the charge on each capacitor and (c) the potential differenceacross each capacitor.AVProblem 4Figure 1: Problem 2.Problem 3For the circuit shown in Fig.2 below, determine the resistance R such that the current in R is0.50 A, with the sense from a to b.Σ60 Ω3.0 Vb{R25.0 Ω2.0 VFigure 2: Problem 2.1A straight wire of length 0.40 m, carrying current I = 7.0 A is oriented at angle = 27° toa uniform magnetic field B = 1.2 T. The field is in the positive x-direction. Determine themagnitude and direction of the magnetic force on the wire.

"Since you have asked multiple questions, as per Bartleby's guidelines we will answer only the first…

Three particles with charges q₁ = +14 nC, 92 = -24 nC, and q3 = +21 nC are arranged along a straight line. Particle 2 is between 1 and 3, 120 mm from 1 and 160 mm from 3. Determine the net force on particle 2.

Three particles with charges q₁ = +14 nC, 92 = -24 nC, and q3 = +21 nC are arranged along a straight line. Particle 2 is between 1 and 3, 120 mm from 1 and 160 mm from 3. Determine the net force on particle 2.

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Question

Problem 1
Three particles with charges q₁ = +14 nC, 92 = -24 nC, and q3 = +21 nC are arranged along
a straight line. Particle 2 is between 1 and 3, 120 mm from 1 and 160 mm from 3. Determine
the net force on particle 2.
Problem 2
For the circuit shown in Fig.1 below, C₁= 5µF, C₂ = 4µF, C3 = 6μF and AV = 65V. Find:
(a) the equivalent capacitance, (b) the charge on each capacitor and (c) the potential difference
across each capacitor.
AV
Problem 4
Figure 1: Problem 2.
Problem 3
For the circuit shown in Fig.2 below, determine the resistance R such that the current in R is
0.50 A, with the sense from a to b.
Σ60 Ω
3.0 V
b
{R
25.0 Ω
2.0 V
Figure 2: Problem 2.
1
A straight wire of length 0.40 m, carrying current I = 7.0 A is oriented at angle = 27° to
a uniform magnetic field B = 1.2 T. The field is in the positive x-direction. Determine the
magnitude and direction of the magnetic force on the wire.

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