Three point charges, ?1=21.4 μC, ?2=−34.6 μC, and ?3=57.3 μC, are arranged as shown in the...

In the image are three point charges, ?1=15.4 ?C, Q1=15.4 μC, ?2=−34.6 ?C, Q2=−34.6 μC, and...

In the image are three point charges, ?1=15.4 ?C, Q1=15.4 μC, ?2=−34.6 ?C, Q2=−34.6 μC, and ?3=57.3 ?C, Q3=57.3 μC, arranged according to the figure. A fourth point charge is located at point A with a charge of ?A=15.5 ?C. QA=15.5 μC. The charges form a square with height ?y of 80.1 cm80.1 cm and width ?x of 80.1 cm.80.1 cm. Calculate the magnitude ?F of the net force on the charge at point A

Pictured on the right are three point charges Q1 = 21.4 μC, Q2 = -33.6 μC,...

Pictured on the right are three point charges Q1 = 21.4 μC, Q2 = -33.6 μC, and Q3 = 87.3 μC arranged according to the figure on the right. A fourth point charge is located at point A with a charge of QA = 15.5 μC. Calculate the magnitude of the net force on the charge at point A. with a 20.1 distance

Three point charges q1=1 μC , q2=2 μC and q3=-3 μC are located at three corners...

Three point charges q1=1 μC , q2=2 μC and q3=-3 μC are located at three corners of a square of side a=2 cm . Charge q3 is located diagonally opposed to the empty corner of the square. Calculate the electric potential created by the three charges at the empty corner of the square. Calculate the work done by the electric field of the three charges when a fourth charge q4=-4 μC moves from the center of the square to the...

Three point charges are arranged as shown in the figure. Calculate the magnitude and direction of...

Three point charges are arranged as shown in the figure. Calculate the magnitude and direction of the net electric force on the -3 nC charge. https://imgur.com/a/bzKSbaz

Three point charges are arranged as shown in the figure to the right. Charge q1 =...

Three point charges are arranged as shown in the figure to the right. Charge q1 = +2.0 nC and is located on the y-axis at y = 3.0 m, charge q2 = +6.0 nC and is located on the x-axis at x = 2.0 m, and charge q3 = -5.0 nC and is located at x = +2 m, y = +3.0 m. (a) What is the net force (magnitude and direction) acting on charge q3? (b) What is the...

Three point charges +4.0 μC, -5.0 μC, and -9.0 μC are placed on the x-axis at...

Three point charges +4.0 μC, -5.0 μC, and -9.0 μC are placed on the x-axis at the points x = 0 cm, x = 40 cm, and x = 120 cm, respectively. What is the electric potential at x = 80 cm?

1. Three point charges, +2.0 μC , -4.0 μC , and +6.0 μC are placed in...

1. Three point charges, +2.0 μC , -4.0 μC , and +6.0 μC are placed in that order along a straight line with 18 cm separating adjacent charges. Calculate the force on each charge. 2. Calculate the electric field strength required to support a proton (at the Earth’s surface).

1. Three point charges, +2.0 μC , -4.0 μC , and +6.0 μC are placed in...

1. Three point charges, +2.0 μC , -4.0 μC , and +6.0 μC are placed in that order along a straight line with 18 cm separating adjacent charges. Calculate the force on each charge. 2. Calculate the electric field strength required to support a proton (at the Earth’s surface).

Two point charges -7 μC and -2 μC are located at the origin and a point...

Two point charges -7 μC and -2 μC are located at the origin and a point (0.18 m, 0) respectively. Find the electric field due to these charges at a point (0.39 m, 0). a.) E=______ V/m b.)What is the electric potential at this point? V=_____V c.) Find the force acting on a point charge of 5 μC located at this point. F=______N

Two point charges of +2 μC and -8 μC are located on the x-axis at x...

Two point charges of +2 μC and -8 μC are located on the x-axis at x = -1 cm and x = +2 cm respectively. Where should a third charge of +46 μC be placed on the +x-axis so that the potential at the origin is equal to zero? (in units of cm)