By what distance must two charges of +2 C and +3 C be separated so that the repulsive force between them is 4.20x10^10 N?
By what distance must two charges of +2 C and +3 C be separated so that...
by what distance must . two charges of +2 C and +6 C be seperated so that the repulsive force between them is 3.70 x 10610 N m=?
At what distance of separation must two 1.00-microCoulomb charges be positioned in order for the repulsive force between them to be equivalent to the weight (on Earth) of a 1.00-kg mass?
Two charges -20μC and +15 μC are separated by a distance of 15 cm. What is the net force acting on a +10 μC charge placed at the point A that is 10 cm from the charge -20 μC? 2. Two charges-20μ C and +15 μC are separated by a distance of 15 cm. What is the net force acting on a +10 pC charge placed at the point A that is 10 cm from the charge-20 μC? (a) 62...
Two point charges are separated by a distance of 11.9 cm. The charge on the one of them is 2.56 uC, and the Electric Force between the two charges if 4.74 N. Find the charge on the second particle in uC.
Two point charges are separated by a distance of 17.0 cm. The charge on the one of them is 1.38 uC, and the Electric Force between the two charges if 4.19 N. Find the charge on the second particle in uC.
Two point charges are separated by a distance of 14.6 cm. The charge on the one of them is 1.58 uC, and the Electric Force between the two charges if 6.15 N. Find the charge on the second particle in uC.
Two charges Q1 = 5x10-6 C and Q2 = 13x10-6 C are separated by a distance of 0.8m (Take Q2 to be located on the right hand side of Q1). a. Calculate the net (i.e., total) force exerted by these two charges on a third charge Q3 = -3x10-6 C located halfway between Q1 and Q2. b. Find the position at which Q3 must be placed so the net force on it (due to Q1 and Q2) is zero (i.e.,...
two charges 5c and 15c are separated by some distance. the force between them is 6.75x 10 x^13 what is the distance between them by using columbs law k contant 9x10^9
Question 2 Two charges, q1 and q2 are separated by a distance r. F is the force between the two charges in this configuration. What is the new force (F) between the charges if the distance between the charges is halved? 1 F-F/4 3 F-F 4) F-2F 5 F-4F 0 of 2 completed Save for Later Submit
10. What must the center-to-center distance between two point charges of 60.0 nC be to have a force of 4 N between them?