b) The following are the two Maxwell equations related to electrostaticOBV. Ď=p₁ ; VxĒ=-=0ôti) State the relationship between electric flux density, and electric fieldintensity, Eii) Given that D = zr cos² p2 C/m², calculate the charge densityp, at (1,7/4,5)and the total charge Q enclosed by a cylinder of radius Im with -3≤ z ≤ 3m.iii) State the mathematical expression that can be used to calculate the workrequired to move a test charge Q from point P1 to point P2 through a staticelectric field E.c) Find the magnitude of the electric field at a point 0.05 m above the surface of asolid metal sphere of radius 0.35 m carrying a net charge of 0.25nC.

Answered: Image /qna-images/answer/50af3a1f-cc0a-4cd3-aede-860188f1d2f1.jpg

Answered: b) The following are the two Maxwell…

Similar questions

A charge distribution creates the following electric field throughout all space: E(r, 0, q) = (3/r) (r hat) + 2 sin cos sin 0(theta hat) + sin cos p (phi hat). Given this electric field, calculate the charge density at location (r, 0, p) = (ab.c).
Consider the following figure. (If you need to use co or -o, enter INFINITY or -INFINITY, respectively.) (a) Find the total electric field in N/C at x = 8.00 cm in part (b) of the figure above given that q = 1.00 uC. N/C (b) Find the total electric field in N/C at x = 11.50 cm in part (b) of the figure above. (Include the sign of the value in your answer.) N/C (c) If the charges are allowed to move and eventually be brought to rest by friction, what will the final charge configuration be? (That is, will there be a single charge, double charge, etc., and what will its value(s) be? Use the following as necessary: q.)
Needs Complete typed solution with 100 % accuracy.
Question 2 A 43.8 cm long rod has a nonuniform charge density given by the equation A(z) = Ae-2/b, where A = 2.50 nC/cm and b= 14.0 cm. What is the total charge on the rod? Hint: This problem requires integration! + + + + ++ Total charge on rod: +
You drop your smartphone and crack the battery. As the lithium-ion components start to mix, the phone is charged to uniform surface charge density o. Using the given dimensions, Determine the electric field vector at a point P, which is a distance d above the center of the clock. O W h P 0
Plz solve correctly
Use Gauss's law to find the electric field at the field point in the following case. The distance between the field point and the surface of the conductor is d. A semi-infinitely large conductor with surface charge density o. Field point d х Conductor
Consider the electric field of a point charge.At point A the electric field strength is 9 V/m, at point B the electric field strength is 36 V/m. We measure the strength of the electric eld at the midpoint of the interval AB. What can be the measured value?
can you answer all parts please