The volume integral of the volume charge density gives the total charge contained within a volume region V:Q = integral _v rho (r) dV. If the charge density is given in cylindrical coordinates as rho (r) = 3z sin phi C/m^3, find the charge within the half cylinder described by 0 lessthanorequalto rho lessthanorequalto 2, 0 lessthanorequalto phi lessthanorequalto pi, 0 lessthanorequalto z lessthanorequalto 2.

8 3 - The volume integral of the volume charge density gives the total charge contained within a volume region V:Q = integral _v rho (r) dV. If the charge density is given in cylindrical coordinates as rho (r) = 3z sin phi C/m^3, find the charge within the half cylinder described by 0 lessthanorequalto rho lessthanorequalto 2, 0 lessthanorequalto phi lessthanorequalto pi, 0 lessthanorequalto z lessthanorequalto 2.

This content is for Premium members only.
sign up for premium and access unlimited solutions for a month at just 5$(not renewed automatically)


images - The volume integral of the volume charge density gives the total charge contained within a volume region V:Q = integral _v rho (r) dV. If the charge density is given in cylindrical coordinates as rho (r) = 3z sin phi C/m^3, find the charge within the half cylinder described by 0 lessthanorequalto rho lessthanorequalto 2, 0 lessthanorequalto phi lessthanorequalto pi, 0 lessthanorequalto z lessthanorequalto 2.

already a member please login