3) There is a -0.05 C charge on the x axis at x = 5 meters,...

3. A point charge q1 = -15 nC is located at x= -3 meters, y =...

3. A point charge q1 = -15 nC is located at x= -3 meters, y = -8 meters. A second point charge q2 = +20 nC is located at x = +5 meters, y = -10 meters. a. Draw the coordinate axis, showing the locations of these charges. b. What would be the force (a vector) on a -50nC charge place at the origin?

A 3C charge is at the origin, a 5C charge is on the x-axis at 3...

A 3C charge is at the origin, a 5C charge is on the x-axis at 3 meters, a -7C charge is on the y-axis at 9 meters. Find the force on the 3C charge.

A rod of length 10 meters and charge .6 μC lies along the x-axis from (-5,...

A rod of length 10 meters and charge .6 μC lies along the x-axis from (-5, 0) to (5, 0) meters. A charge of .4 μC is placed at (0, 3) meters. a) Find the electric potential energy of the system if the rod has a uniform charge density. b) Find the energy if the rod has a linear charge density given by λ = kx2. c) Find the answer to (a) and (b) if the .4 μC charge was...

A point charge of -9.00x10-9 C is located at the point (x,y) = (0,3) meters on...

A point charge of -9.00x10-9 C is located at the point (x,y) = (0,3) meters on the y-axis, while a second point charge of +6.00x10-9 C is located at the point (x,y) = (4,0) meters on the x-axis. (a) Calculate the total electric field (magnitude and direction) that these point charges generate at the origin of the xy-coordinate system. (b) A third point charge of -2.00x10-9 C is now placed at the origin of the xy-coordinate system while keeping the...

A charge of +15nC lies on the x-axis at x=-15cm, while a charge of -30nC lies...

A charge of +15nC lies on the x-axis at x=-15cm, while a charge of -30nC lies on the x-axis at x=+15cm. What is the voltage at the origin? What is the change in potential energy of a +10nC charge that moves from the origin along the y-axis to y=+15cm?

Two charges are lying on the x axis. The charge at x=-0.15m has a charge of...

Two charges are lying on the x axis. The charge at x=-0.15m has a charge of -12nC. The charge at +0.20m has a charge of +10nC. If a charge of +20nC moves along the y-axis from the origin to y=+0.25m, what is the change in its electrical potential energy?

A point charge q1 = 5 μC is located on the x-axis at x = 1.5...

A point charge q1 = 5 μC is located on the x-axis at x = 1.5 m. Another point charge q2 = 8 μC is also located on the x-axis at the origin. Determine the electric potential on the y-axis at y = 0.5 m.

A particle with charge 3.20×10?19 C is placed on the x axis in a region where...

A particle with charge 3.20×10?19 C is placed on the x axis in a region where the electric potential due to other charges increases in the +x direction but does not change in the y or z direction. The particle, initially at rest, is acted upon only by the electric force and moves from point a to point b along the x axis, increasing its kinetic energy by 1.12×10?18 J . In what direction and through what potential difference Vb?Va...

A charge of  +.4 mC is at (-3, 0) meters and a charge of  +.9 mC is at...

A charge of  +.4 mC is at (-3, 0) meters and a charge of  +.9 mC is at (+1, 0) meters.   What is the direction of the force felt by a +.5 mC charge placed at (0, 3) meters due to the original two charges? Group of answer choices a) 97.2 degrees below the (-x) axis b) 97.2 degrees above the x axis c) 75.6 degrees below the x axis d) 97.2 degrees above the (-x) axis e) 75.6 degrees above the...

Two positive point charges are held fixed on the x-axis. Point charge A is located at...

Two positive point charges are held fixed on the x-axis. Point charge A is located at the origin, and point charge B is located at the position x = −5.00 cm = −5.00✕10-2 m (on the negative x-axis). The magnitude of charge A is two times greater than that of charge B: qA = 2qB. ke = 8.9876✕109 Nm2/C2 (A.) The electric force on charge A has magnitude 0.344 mN = 0.344⨯10-3 N. What is the electric force (magnitude and...