QUESTION 4 Two negative charges of −4 x 10−4 C each are located at the two...

Part complete Three charges of magnitude 1 × 10-4 C each are located at x =...

Part complete Three charges of magnitude 1 × 10-4 C each are located at x = 1.0 m, y = 0.0 m, at x = 0.0 m, y = 0.0 m, and at x = -1.0 m, y = 0.0 m. The one in the middle is negative, while the other two are positive. What is the net Coulombic force exerted by them on a negative 1 × 10-4 C charge located at x = 0.0 m, y = 2.0...

Three charges of magnitude 5uC are placed at the corner of an equilateral triangle. The top...

Three charges of magnitude 5uC are placed at the corner of an equilateral triangle. The top charge is negative and the bottom two charges are positive. The sides of the triangle are d= 6.4x10^-4 m. A) What is the magnitude of the force acting on the top charge? B) What is the direction of the force acting on the top charge? EXPLAIN:

Three point charges are arranged so that they each lie on the vertex of what appears...

Three point charges are arranged so that they each lie on the vertex of what appears to be an equilateral triangle of side length 1 cm. At the bottom, the two charges are the same (from left to right), each having charge +10 nC (nanoCoulomb). At the vertex on the top, the charge there is (-)20 nC (it's a negative charge). Find the magnitude and direction of the net electric force on the top charge due to the bottom two.

Three charges, each of charge 5.0 ""C are located at the vertices of an equilateral triangle...

Three charges, each of charge 5.0 ""C are located at the vertices of an equilateral triangle whose sides are 10 cm in length. a) What is the total force, magnitude and direction, on charge I? b) What is-the total potential energy of the three charges? c) Charges 2 and 3 remain fixed, but charge one is now allowed to move. If it starts from rest, what i.s its velocity when it is very far away from charges 2 and 3?...

Two point charges, q1=q1= 4.0×10-6 C and q2=q2= -1.0×10-6 C, are located on the x axis...

Two point charges, q1=q1= 4.0×10-6 C and q2=q2= -1.0×10-6 C, are located on the x axis at x1 = -1.0 cm and x2 = 3.0 cm. (a) Determine the electric field at the origin. b) Determine the x coordinate of a point on the positive x axis where the electric field is zero; i.e., a test charge placed at this point would experience no force. (a) Determine the electric field at the origin.

2 charges, 21.44 µC each, are located at two vertices B & C of an equilateral...

2 charges, 21.44 µC each, are located at two vertices B & C of an equilateral triangle ABC with sides 2 cm each. Another charge q is located at point A. Calculate q in micro Coulomb so that net POTENTIAL at the mid point of BC will be ZERO.

2 charges, 14.34 µC each, are located at two vertices B & C of an equilateral...

2 charges, 14.34 µC each, are located at two vertices B & C of an equilateral triangle ABC with sides 2 cm each. Another charge q is located at point A. Calculate q in micro Coulomb so that net POTENTIAL at the mid point of BC will be ZERO.

Two identical charges (+5.0 C each) are placed at the bottom corners of an equilateral triangle,...

Two identical charges (+5.0 C each) are placed at the bottom corners of an equilateral triangle, as shown below. If the length of one side is 3.0 m, find the magnitude of the net force on a -12 C placed at the at the empty top corner.

3 charges, A = 1.0 µC, B = 2.0 µC, and C = 6.0 µC, are...

3 charges, A = 1.0 µC, B = 2.0 µC, and C = 6.0 µC, are located on three vertices A, B, C of an equilateral triangle with sides 10 cm each. (a)Calculate the net force on A due to B and C (b)Calculate the net force on B due to A and C (c)Calculate the net force on C due to A and B (d)Another charge q is located at the mid point of the side BC. Calculate q...

Three equal point charges, each with charge 1.35?C , are placed at the vertices of an...

Three equal point charges, each with charge 1.35?C , are placed at the vertices of an equilateral triangle whose sides are of length 0.350m . What is the electric potential energy U of the system? (Take as zero the potential energy of the three charges when they are infinitely far apart.)