전자기학 솔루션
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전자기학 제7판 : 7판
William H.Hayt, Jr 저 | 한국맥그로힐(McGraw-Hill KOREA)
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전자기학 제7판 : 7판
William H.Hayt, Jr 저 | 한국맥그로힐(McGraw-Hill KOREA)
본문내용
4.6c. the straight line x = 6y − 4: Here, y = x/6 + 2/3, and the work is
W3 = −2 × 10−6
4.18. Find the potential at the origin produced by a line charge ρL = kx/(x2 +a2) extending along
the x axis from x = a to +∞, where a > 0. Assume a zero reference at infinity.
Think of the line charge as an array of point charges, each of charge dq = ρLdx, and each
having potential at the origin of dV = ρLdx/(4π0x). The total potential at the origin is
then the sum of all these potentials, or
160a
4.19. The annular surface, 1 cm < ρ < 3 cm, z = 0, carries the nonuniform surface charge density
ρs = 5ρ nC/m2. Find V at P(0, 0, 2 cm) if V = 0 at infinity: We use the superposition integral
form:
VP =
ρs da
4π0|r − r|
where r = zaz and r = ρaρ. We integrate over the surface of the annular region, with
da = ρdρdφ. Substituting the given values, we find
4.20. A point charge Q is located at the origin. Express the potential in both rectangular and
cylindrical coordinates, and use the gradient operation in that coordinate system to find the
electric field intensity. The result may be checked by conversion to spherical coordinates.
The potential is expressed in spherical, rectangular, and cylindrical coordinates respectively
참고 자료
전자기학 제7판 : 7판
William H.Hayt, Jr 저 | 한국맥그로힐(McGraw-Hill KOREA)
압축파일 내 파일목록
CH11.pdf
CH12.pdf
CH13.pdf
chapter01_7th_solution.pdf
chapter02_7th_solution.pdf
chapter03_7th_solution.pdf
chapter04_7th_solution.pdf
chapter05_7th_solution.pdf
chapter06_7th_solution.pdf
chapter07_7th_solution.pdf
chapter08_7th_solution.pdf
chapter09_7th_solution.pdf
chapter10_7th_solution.pdf
electromagnetics_sol/CH-7.pdf
electromagnetics_sol/CH1-Sa.pdf
electromagnetics_sol/CH1-Sb.pdf
electromagnetics_sol/CH1-Sc.pdf
electromagnetics_sol/CH2-S.pdf
electromagnetics_sol/CH3-Sa.pdf
electromagnetics_sol/CH3-Sb.pdf
electromagnetics_sol/CH4-So.pdf
electromagnetics_sol/CH5-So.pdf
electromagnetics_sol/chap10.pdf
electromagnetics_sol/chap11.pdf
electromagnetics_sol/chap8a.pdf
electromagnetics_sol/chap8b.pdf
electromagnetics_sol/chap9.pdf