Choose the best answer of the following questions (L In the figure shown, if a = 10.0 cm, b= 40.0 cm, q= 6.0 μc, and Q = -10.0 μc. Answer questions 1,2 and 3. magnitude of the electric force (in M) between q and Q equals: B) 0.45 C) 2.4 D) 1.2 he magnitude of the electric field (in x 106 N/C) at point y is: B) 2.4 C) 9.2 D) 3.6 a X b E) -0.45 E) 1.1 y a

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The following constants can be useful: Charge of electron Mass of the electron Mass of the proton lel = 1.6 x 10-1⁹ C m, = 9.11x10 kg; m = 1.67x10-27 kg : Acceleration due to gravity Permittivity of free space Coulomb's constant π = 3.14 a Choose the best answer of the following questions (L In the figure shown, if a = 10.0 cm, b = 40.0 cm, q= 6.0 μc, and Q = -10.0 μc. Answer questions 1,2 and 3. magnitude of the electric force (in N) between q and Q equals: C) 2.4 B) 0.45 D) 1.2 he magnitude of the electric field ( in x 106 N/C) at point y is: C) 9.2 B) 2.4 ) 1.8 D) 3.6 Q3. The magnitude of the electric potential (in KV) at point x is: A)-350 B)-211 C) 440 D) 211 E) 360 Q4. A charge of 3 nC is located at the center of a cube of side length of 1 cm. The electric flux (in N.m²/C) through one surface is: A) 200 B) 565 C) 339 D) 233 Q5. In the figure shown, if C₁ = 9 µF, C₂ = 9 µF, C3 = 6 µF, then the equivalent capacitance (in µF) between the two points a and b is: A) 4.5 B) 10 C) 8.25 D) 4 E) 12 Q6. The resistivity of a 4.0 m long copper wire is 1.72 x 10-8 2 m and its cross-sectional area is 2.0 x 10-6 m². If the wire carries a current of 0.20 A, then the voltage difference (in mV) across the wire: . A) 1.57 B) 6.9 C) 1.7 D) 0.79 E) 2.55 E) 524 g = 9.8 m/s² 8=8.85 x 10-12 c² / Nm² ke = 9 x 10⁹ N.m²/C² a b E) -0.45 E) 1.1 C₁ HH Cz a y C3 b