Answer Happy

kindly provide correct significant figures and diagrams (well-labled). Also provide correct unites and conversions. Thank you.
Consider a test charge of +3.75 uC placed on the x-axis at a point five-fourteenth the distance from Q1 to Q2 (Q1 and Q2 being two equal but opposite point charges fixed on the x-axis). If the electric force on this charge is 3.05x10N and directed towards Q2, find the magnitude and sign of each charge. (Correct sketch is worth 2 out of 10 points)

The work done by an external force to move a -8.75°C charge from point A to point B is 15.0x104J. If the charge started at rest and had a kinetic energy of 9.00x10 J when it reached point B, what must be the potential difference between A and B (VB-VA=?)

Two point charges +67.6 nC and - 40.0 nC fixed on the x-axis are separated by a distance of 27.0 cm from each other. At what point along the x-axis is the electric field zero? (Well- labeled sketch that demonstrates there is one and only one point is worth 3 points out of 10)

Two point charges, - 67.6 nC (placed on the left side of the positive charge) and +40.0 nC, fixed on the x-axis, are separated by a distance of 26.9 cm from each other. At what points along the x-axis is the electric potential equal to zero (two points)? (Well-labeled sketch showing these points is worth 2 out of 10)

Obtain the expression for the equivalent capacity Ce, of the circuit below in term of and C. If Ci = 12.6 uF, C2 = 33.6 uF, C3 = 16.8 uF, and V = 12.0 V, find the charge on each capacitor and the voltage across each capacitor. LE ataH

6. Find the currents (in magnitude and directions, to three significant figures) through the resistors in the circuit below. 15.022 M 15.0V 10.00 7.50V