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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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.
Transcribed Image Text: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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