2. In the figure, if Q = +30.0 µC, q = -4.00 µC, and d = 30.0 cm, what are the magnitude and direction of the electrostatic force on q? 24
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- What is Fx on the charge at x = 16.00 cm if q = 2.650 C? Other charges are at 6000 cm and 2200 cm. Positive is correct. 8.988 109 Nm2/C2 is Coulomb constant. Fx || +0 3.506 Wrong +q 10.00-29 20.00+qx (cm)Problem 3: Find the magnitude and direction of the electric force on the 7.0 μC charge. 7 μC 0.5 m 2 μC 60° | · 0.5 m -4 μCWhat must be the distance in meters between point charge q1 = 39.0 µC and point charge q2 = -51.9 µC for the electrostatic force between them to have a magnitude of 7.34 N?
- Coulomb’s law for the following problem use k = 9 x 10^9 N.m^2/C^29 m +2 C +7C Determine the electric force exerted on sphere A. 1.4 1010 newtons 1.3 1011 newtons 9'10 newtons 1.6 10 newtons1) Determine the change in chemical energy each second required to produce this increase in electric potential energy. 2) If there are roughly 7×10^11 of these cells in the body, how much chemical energy is used in pumping sodium ions each second? 3) Estimate the fraction of a person's metabolic rate used to pump these ions. Assume the metabolic rate to be 100 W.
- Two electrons are passing 25.0 mm apart. What is the electric repulsive force that they exert on each other? (The value of k is 9.0 x 109 N-m2/C2.) O 3.7 x 10-25 N O 3.7 x 10-27 N 1.4 N O 1.4 x 1010 NWhat must be the distance in meters between point charge q1 = 23.3 µC and point charge q2 = -68.1 µC for the electrostatic force between them to have a magnitude of 7.27 N?What must be the distance in meters between point charge q₁ = 22.0 μC and point charge 92 = -64.2 µC for the electrostatic force between them to have a magnitude of 8.25 N?