Charges of –1.0 μC and +1.0 μC are separated by 1.0 m with the negative charge...

Two charges, q1 = 5 μC and q2 = 7 μC, are separated by 25 cm....

Two charges, q1 = 5 μC and q2 = 7 μC, are separated by 25 cm. Where should a third charge be placed on the line between them such that the resultant force on it will be zero? Does it matter if the third charge is positive or negative?

Three point charges are placed on the x-axis. A charge of +2.0 μC is placed at...

Three point charges are placed on the x-axis. A charge of +2.0 μC is placed at the origin, -2.0 μC to the right at x = 50 cm, and +4.0 μC at the 100 cm mark. a. Find the net electric force (magnitude and direction) that acts on the charge at the origin. b. Find the net electric field (magnitude and direction) at x = 25 cm. c. Find the net electric force (magnitude and direction) on a charge Q...

A negative charge Q1 = -50.0 μC is located at a point X1 = -3.00 m,...

A negative charge Q1 = -50.0 μC is located at a point X1 = -3.00 m, a negative charge Q2 = -100.0 μC is located at a point X2 = 0.00 m and a positive charge Q3 = 70.0 μC is located at a point X3 = 8.00 m.a. Draw free body diagrams for the electric force acting on Q1, Q2 and Q3. b. Find the magnitude of the force between Q1 and Q2. c. Find the magnitude of the...

Let q1 = 15 μC and q2 = 5 μC. The two are separated by d...

Let q1 = 15 μC and q2 = 5 μC. The two are separated by d = 20 cm. Find the magnitude and direction of the net electric force on a third charge q3 = -10μC, positioned another 20 cm to the right of q2.

A charge of -5.0 μC is fixed at the center of a compass. Two additional charges...

A charge of -5.0 μC is fixed at the center of a compass. Two additional charges are fixed on the circle of the compass, which has a radius of 0.040 m. The charges on the circle are +2.0 μC at the position due north and -3.0 μC at the position due east. What are the magnitude and direction of the net electrostatic force acting on the charge at the center?

Two charges, 15 mC and 12 mC, are fixed in place 1.0 m apart, with the...

Two charges, 15 mC and 12 mC, are fixed in place 1.0 m apart, with the second one to the right. Find the magnitude and direction of the net force on a -1.0 nC charge, placed at the following locations: (a) halfway between the two: (b) half a meter to the left of the 15 mC charge:

A point charge with 72 μC sits at the origin, while another point charge of -12...

A point charge with 72 μC sits at the origin, while another point charge of -12 μC sits at x = 6.8 m. What is the electric force on the -12 μC charge? -1.144 N to the RIGHT -1.144 N to the LEFT -1.682×10-1 N to the RIGHT -1.682×10-1 N to the LEFT A third charge of -6 μC is placed at x = 1.7 m. What is the magnitude of the TOTAL electric force on the -12 μC charge?...

A charge of 4.40 μC is placed at each corner of a square 0.100 m on...

A charge of 4.40 μC is placed at each corner of a square 0.100 m on a side.    Determine the magnitude of the force on each charge.    What is the direction of the force on the charge at the upper right corner of the square? Assume that the positive x-axis is directed to the right.

Point charges of -2.93 μC and +6.63 μC are placed 0.898 m apart, with the negative...

Point charges of -2.93 μC and +6.63 μC are placed 0.898 m apart, with the negative charge at the origin and the positive charge on the +y-axis. (a) At what location, in meters, is the electric field due to these charges zero?

A point charge +6.8 μC is placed at the origin, and a second charge –3.6 μC...

A point charge +6.8 μC is placed at the origin, and a second charge –3.6 μC is placed in the x-y plane at (0.40 m , 0.50 m ). Where should a third charge be placed in the plane so that the net force acting on it is zero? Express your answers using two significant figures. Enter the x and y coordinates of the charge separated by a comma.