- In a two dimensional space Charge q1= +4nC is placed at (3,3) m Charge q2=...

Two point charges q1 and q2 in a x-y coordinator. q1 has a charge of -3nC...

Two point charges q1 and q2 in a x-y coordinator. q1 has a charge of -3nC and located at (-2m, 0), q2 has a charge of 5nC and located at (1m, 0). Calculate following: A) electrical potential at (-1m, 0) B) electrcal field at (-1m, 0) C) if a third charge q3 of -2nC is located at (-1m, 0) position, what is the electrical force on q3.

Three point charges are on the x axis: q1 is at the origin, q2 is at...

Three point charges are on the x axis: q1 is at the origin, q2 is at x = +3.4 m, and q3 is at x = +6.5 m. Find the electrostatic potential energy of this system of charges for the following charge values. (Assume the potential energy is zero when the charges are very far from each other.) 1) (a) q1 = q2 = q3 = +4.2 µC 2) (b) q1 = q2 = +4 µC and q3 = -4...

A point charge of Q1=−71μC is fixed at r⃗ 1=(0.3, −0.6)m and a second point charge...

A point charge of Q1=−71μC is fixed at r⃗ 1=(0.3, −0.6)m and a second point charge of Q2=40μC at r⃗ 2=(−0.7, 0.7)m a) What is the x-component of the electric field at the origin of the coordinate system, meaning, at (x,y)=(0,0)? b) What is the y-component of the electric field at the origin of the coordinate system, meaning, at (x,y)=(0,0)? c) If a charge Q3=−42μC were to be placed into the origin, what would be the magnitude of the force...

a charge (q1= +7uC) is placed on the x-axis at x= .6 m, another charge (q2=+9uC)...

a charge (q1= +7uC) is placed on the x-axis at x= .6 m, another charge (q2=+9uC) is placed on the y axis at y= .4m. A third charge,q3= -6uC and mass 5.0x 10^-8 kg, is placed at the origin. If the charge were free to move what would be the magnitude of its acceleration and the direction of its acceleration

A charge q3 = -5 nC is placed between two charges q1 = 3 nC located...

A charge q3 = -5 nC is placed between two charges q1 = 3 nC located at x = 2 m and q2 = 6 nC located at x = 0. • Find the net force on charge q3 placed at a) x= 0.2 m, b) x=1.8 m. • Find the position of charge q3 where it experience zero net force.

A charge (q1= + 7 uC) is placed on the x-axis at x= 0.600 m, and...

A charge (q1= + 7 uC) is placed on the x-axis at x= 0.600 m, and another charge (q2 = +9 UC) is placed on the y- axis at y = 0.400 m. A third charge q3 = -6 uC and mass = 5.00 x 10 ^-8 kg, is placed at the coordinate origin. If the charge at the origin were free to move, what would be the magnitude and direction of its acceleration?

Q1 = +2.1µC and is located at (5, 0), Q2 = -8.4µC and is located at...

Q1 = +2.1µC and is located at (5, 0), Q2 = -8.4µC and is located at (0, -7), and Q3 = +6.5 µC and is located at (-8, 6). A ball with a charge of QB = +4.2µC is placed at the origin (0,0). (units of distance measured in meters) Sketch the setup and make an FBD for the ball. Find the force from Q1 on the ball in component form? Find the force from Q2 on the ball in...

Three charges q1=1.00 μC, q2=−1.00 μC, and q3=2.00 μC are placed in the xy plane with...

Three charges q1=1.00 μC, q2=−1.00 μC, and q3=2.00 μC are placed in the xy plane with q1 at the origin of the coordinates, q2 on the x axis at x2=3.00 m, and q3 at x3=2.00 m and y3=3.00 m. What is the total electric potential energy of the three-charge system measured from the point with all of them infinitely apart? _________mJ

Charge q1 = 5.5 nC is located at the coordinate system origin, while charge q2 =...

Charge q1 = 5.5 nC is located at the coordinate system origin, while charge q2 = -4.61 nC is located at (a, 0), where a = 0.55 m. The point P has coordinates (a, b), where b = 0.25 m. A third charge q3 = 19 nC will be placed later. a) Find the electric potential VP at point P, in volts. Assume the potential is zero at infinity. b) How much work W, in joules, would you have to...

1) A point charge Q1 = +4.4 μC is fixed in space, while a point charge...

1) A point charge Q1 = +4.4 μC is fixed in space, while a point charge Q2 = -3.3 nC, with mass 6.3 μg, is free to move around nearby. a) Calculate the electric potential energy of the system, in joules, when Q2 is located 0.44 m from Q1. b) If Q2 is released from rest at a point 0.44 m from Q1, what will be its speed, in meters per second, when it is 0.19 m from Q1? 2)...