You are given two unknown point charges, Q1 and Q2. At a point on the line joining them, one-fourth of the way from Q1 to Q2, the third charged particle is located, the net electrostatic force on the third charge is zero. What is the ratio Q1/Q2?
You are given two unknown point charges, Q1 and Q2. At a point on the line...
Consider two unknown point charges, Q1 (left) and Q2 (right) are separated by a distance, 60.0 cm . At a point on the line joining them, and at a distance 20.0 cm to the right of Q2, the electric field is zero. Find the ratio Q1/Q2 in both magnitude and sign. (A well-labeled sketch illustrating every possibility (of charge signs) in this problem is worth 4 points out of 10).
Please show me how to find the answer: You are given two unknown point charges, Q_1 and Q_2. At a point on the line joining them, one-third of the way from Q_1 to Q_2. the electric field is zero (Fig. 16-59). What is the ratio Q_1/Q_2?
Two point charges, Q1 = -5.6 μC and Q2 = 1.8 μC , are located between two oppositely charged parallel plates, as shown in (Figure 1). The two charges are separated by a distance of x = 0.45 m . Assume that the electric field produced by the charged plates is uniform and equal to E = 60000 N/C . Neglect the charge redistribution in plates. Calculate the magnitude of the net electrostatic force on Q1 and give its direction.
Two stationary particles with the charges q1 = 1.0 C and q2 = -3.0 C are located at a distance of 10 cm from each other. How far from each of the two would a third particle have to be positioned so that the resulting electrostatic force on that particle would be zero? What is the resulting electric field of the stationary particles at this point? We were unable to transcribe this imageWe were unable to transcribe this image
A system consists of two positive point charges, q1 and q2 > q1. The total charge of the system is 60.0 μC , and each charge experiences electrostatic force of magnitude 82.0N when the separation between them is 0.270 m. Find q1 and q2.
A system consists of two positive point charges, q1 and q2>q1. The total charge of the system is 62.0 μC , and each charge experiences electrostatic force of magnitude 82.0 N when the separation between them is 0.270 m. Find q1 Find q2
The charges and coordinates of two charged particles held fixed in an xy plane are q1 = 3.24 μC, x1 = 4.88 cm, y1 = 0.358 cm and q2 = -3.53 μC, x2 = -2.01 cm, y2 = 1.60 cm. Find the (a) magnitude and (b) direction of the electrostatic force on particle 2 due to particle 1. At what (c) x and (d) y coordinates should a third particle of charge q3 = 5.12 μC be placed such that...
The position of two charged particles are held fixed in an xy−plane. The charges are q1 = +3.0 mC, at x1 = 3.5 cm and y1 = 0.50 cm, and q2 = −4.0 mC, x2 = 2.0 cm, y2 = 1.5 cm. a) Find the magnitude and direction of the electrostatic force on particle 2 due to particle 1. b) At what x and y coordinates should a third particle of charge q3 = 4.0 mC be placed such that...
The charges and coordinates of two charged particles held fixed in an xy plane are q1 = +2.4 μC, x1 = 3.5 cm, y1 = 0.50 cm and q2 = −4.2 μC, x2 = −2.0 cm, y2 = 1.5 cm. (a) Find the magnitude and direction of the electrostatic force on particle 2 due to particle 1. (b) At what x and y coordinates should a third particle of charge q3 = +3.9 μC be placed such that the net...
The charges and coordinates of two charged particles held fixed in an xy plane are q1 = 3.18 μC, x1 = 5.16 cm, y1 = 0.330 cm and q2 = -3.65 μC, x2 = -1.69 cm, y2 = 1.82 cm. Find the (a) magnitude and (b) direction of the electrostatic force on particle 2 due to particle 1. At what (c) x and (d) y coordinates should a third particle of charge q3 = 4.65 μC be placed such that...