In the figure below, there are positive (+2C) and negative (-4C) charges. In which Region or Regions would you place a proton so that the proton will experience zero net force? I only. II only III only. Both I and II. Both II and III.
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In the figure below, there are positive (+2C) and negative (-4C) charges. In which Region or Regions would you place a proton so that the proton will experience zero net force?
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- 3) Please answer this one! Your object has a mass of 43.8 kg. You separate the protons and electrons into two boxes. You place the boxes at a distance of 26 m apart from one another. How much force attracts the two boxes to one another? 5.85E+25 N 1.17E+26 N 2.34E+26 N 2.93E+25 NTwo spherical objects are separated by a distance of 1.52 x 103 m. The objects are initially electrically neutral and are very small compared to the distance between them. Each object acquires the same negative charge due to the addition of electrons. As a result, each object experiences an electrostatic force that has a magnitude of 2.24 x 10-20 N. How many electrons did it take to produce the charge on one of the objects? Number UnitsWhen two point charges are 2.0 cm apart, each one experiences a 1.0-N electric force due to the other charge. If they are moved to a new separation of 8.0 cm, the electric force on each of them is closest to O none of the given choices O 1.0 N. O 0.063 N. O 4.0 N. O 0.25 N.
- A proton Q = +e and an electron Q = -e are in a constant electric field created by oppositely charged plates. You release the proton from near the positive plate and the electron from near the negative plate. Which feels the larger electric force? O The electron. O The proton. O Neither-there is no force. O The magnitude of the force is the same for both and in the same direction. O The magnitude of the force is the same for both but in opposite directions.What is the resultant magnitude and direction of the force on a 7 μC charge situated on the y-axis, 4 cm from the point of origin, due to a pair of 3 μC charges located on the x-axis at opposite sides of the point of origin, each at distance of 4 cm from the point of origin? O a. 85.4 N O b. 83.4 N O c. 27.8 N O d. 83.4 N O e. 82.4 N4
- Two 2.0-kg spheres each carry a charge of 2.0 C. How does FE compare with Fg?a) FE = Fgb) Fg > FEc) FE > Fgd) FE and Fg cannot be compared without knowing the distance between the spheres..7 How can you tell which charges are positive and which are negative by examining the field lines? The arrows around a positive charge point away from the charge; the arrows around a negative charge point toward the charge The arrows around a positive and negative charge point away from the charges. The arrows around a positive charge point away from the charge; the arrows around a negative charge point toward the charge. The arrows around a positive and negative charge point towards the charges.