Calculate the monopole dipole and quadrupole moment of a cylinder of radius 'r' and and length...

A cylinder of radius R and height 2R is centered at the origin of a coordinate...

A cylinder of radius R and height 2R is centered at the origin of a coordinate system. The axis of the cylinder lies on the z axis. The cylinder has a volume charge density given by p= p0(1-z/R)*(sin ^2(phi)). Compute the quadruple moment. (Please calculate all the components of Qij)

Find the dipole moment of a thin cylindrical magnet of radius r and length l with...

Find the dipole moment of a thin cylindrical magnet of radius r and length l with uniform magnetization M along its axis.

Calculate the monopole, dipole, and quadrupole terms of the potential of point charge q located at...

Calculate the monopole, dipole, and quadrupole terms of the potential of point charge q located at position r = (0, 0, a). What is true for the case a = 0? Please check this answer part 1 is the close to this question https://www.chegg.com/homework-help/questions-and-answers/calculate-monopole-dipole-quadrupole-terms-potential-two-point-charges-q-located-position--q27361175

A cylinder (bottom face at z= - L, top face at z = L, radius R,...

A cylinder (bottom face at z= - L, top face at z = L, radius R, centered along the z-axis) carries a volume charge distribution ?(?,?, ?) = ?o ( ?/ ? ) ???^2?. a. Calculate the monopole and dipole moments of this charge distribution b. Find the leading order terms for the potential an the electric field at the point (x = 25R, y = 25R, z = 25L)

a) A line of charge is along the z-axis, from –L to L. If the distribution...

a) A line of charge is along the z-axis, from –L to L. If the distribution of charge on this line is sinusoidal, given by λ = sin(π z / L), calculate the monople, the dipole, and the quadrupole terms of the potential V(r),

A short circular cylinder of radius R and length L carries a "frozen-in" uniform magnetization M...

A short circular cylinder of radius R and length L carries a "frozen-in" uniform magnetization M parallel to its axis. Sketch the magnetization M and the magnetic field B of the cylinder for L>>R, L<<R, L=R, and L=2R. for the last case, include H in the sketch.

10. A circular cylinder with a radius R of 1 cm and a height H of...

10. A circular cylinder with a radius R of 1 cm and a height H of 2 cm carries a charge density of ρV = H r2 sin φ µC/cm3 (r is a point on the z-axis, φ is an azimuthal angle). The cylinder is then placed on the xy plane with its axis the same as the z-axis. Find the electric field intensity E and the electric potential V on point A on z-axis 2 cm from the top...

The density of a cylinder of radius R and length l varies linearly from the central...

The density of a cylinder of radius R and length l varies linearly from the central axis where ρ1=500 kg/m3 to the value ρ2=3ρ1. If R=.05 m and l= .1 m, find: a. The average density of the cylinder over the radius. b. The average density over its volume. c. the moment of inertia of the cylinder about its central axis.

Water molecules have a permanent dipole moment of about p = 6.3 × 10−30 C m....

Water molecules have a permanent dipole moment of about p = 6.3 × 10−30 C m. In the following use r = 0.9584 × 10−10 m for the H-O distance and α = 104.45◦ for the H-O-H angle. a) One can imagine the total dipole of water as comprising of a charge +q on each hydrogen atom, and a charge −2q on the oxygen atom. Calculate the value of q in units of elementary charges given the values of p,...

Water molecules have a permanent dipole moment of about p = 6.3 × 10−30 C m....

Water molecules have a permanent dipole moment of about p = 6.3 × 10−30 C m. In the following use r = 0.9584 × 10−10 m for the H-O distance and α = 104.45◦ for the H-O-H angle. a) One can imagine the total dipole of water as comprising of a charge +q on each hydrogen atom, and a charge −2q on the oxygen atom. Calculate the value of q in units of elementary charges given the values of p,...