Consider a spherically symmetric distribution of charge where the charge density as a function of distance from the center is given by ? (r) = 9.3 r4 x 10-12 C/m3 (note the 10-12 will cancel the 10-12 in ?0). This charge distribution extends from r = 0 to r = 5.3 m, and beyond that the charge density is 0. Calculate the magnitude of the electric field r = 8.1 m away from the center of the distribution, in N/C. Use ?0 = 8.85 x 10-12 F/m. (Please answer to the fourth decimal place - i.e 14.3225)

Consider a spherically symmetric distribution of charge where the charge density as a function of distance from the center is given by ? (r) = 9.3 r4 x 10-12 C/m3 (note the 10-12 will cancel the 10-12 in ?0). This charge distribution extends from r = 0 to r = 5.3 m, and beyond that the charge density is 0. Calculate the magnitude of the electric field r = 8.1 m away from the center of the distribution, in N/C. Use ?0 = 8.85 x 10-12 F/m. (Please answer to the fourth decimal place - i.e 14.3225)

Related questions

Q: An infinite line charge exist and a section of it is surrounded by a right circular cylinder with a…

Q: A conducting sphere of radius R = 4 cm is charged with a uniform surface charge density 6 = 500 nC…

A: Given thatRadious of the sphereSurface charge densityTo determine thatCalculate the total charge…

Q: In Figure (a) below, a particle of charge +Q produces an electric field of magnitude Epart at point…

A: The magnitude of the electric field produced by the point charge Q at point P is : Epart=14πε0QR2…

Q: Electric charge is distributed over the triangular region D shown below so that the charge density…

Q: Problem 9: Consider a ring of charge with a linear charge density 540 nC/m. The radius of the ring…

Q: A metal sphere of radius 1.1 m carries a surface charge density of -25 nC/m². How many excess…

A: Given a metallic sphere with a radiuswith a surface charge densityWe need to find how many excess…

Q: A point charge of -3.00 micro Coulomb is located in the center of a spherical cavity of radius 6.50…

A: Given data: The charge is -3 micro coulomb Radius of the spherical cavity is 6.50 cm The charge…

Q: A charge of 24.4 pC is distributed uniformly on a spherical surface (r1 = 2.0 cm), and a second…

A: Given data *The given charge is q1 = 24.4 pC = 24.4 × 10-12 C *The second charge is q2 = -8.6 pC =…

Q: This equation is for the electric field of a uniform ring which is charged and is at point z which…

Q: A quarter-disc in the first quadrant has a surface charge density given by K cos φ C/m2 . If the…

A: Solution: Given that charge density p = K cos φ C/m2 radius = b field at point P(0,0, -h)

Q: n infinitely long solid cylinder of radius 16 cm has a non-uniform volume charge density given by…

Q: Q.3: Figure.1 shows a section of a long, thin-walled metal tube of radius R= 3.00 cm, with a charge…

Q: A point charge of -3.00 micro Coulomb is located in the center of a spherical cavity of radius 6.50…

Q: Calculate the electric field in N/C at point P, a distance (1.259x10^1) cm above an infinite plane…

Q: Electric charge is distributed throughout 3-space with density inversely pro- portional to the…

A: Electric charge is distributed throughout 3-space with density inversely proportional to the…

Q: Electric charge is distributed throughout 3-space with density inversely proportional to the…

A: Given,

Q: a total charge of 6.3x10^-8 is distributed uniformly throughout a 2.7 radius sphere. Thee volume…

Q: A positive charge distribution with linear charge density of 5.2 nC/m is distributed on a…

Q: An infinite plane with a surface charge density of ps = 7 µC/m^2. find the magnitude of the electric…

Q: The figure shows a section of a long, thin-walled metal tube of radius R = 4.60 cm, with a charge…

A: Radius of the tube, Charge per unit length, from the Gauss's law in electrostaticswhere, Charge…

Q: Consider any charge distribution with a charge densityp(f), let v be a spherical region of radius ..…

Q: A charge distributed over a spherical volume of radius R, where the volumetric charge density at any…

Q: There is a surface charge density, given by: 6-6.7 nC/m². Find the total electric charge contained…

A: Given that:Surface charge density:σ=6-6.7nC/m²Cylinder dimensions:p=3.0m, 0<z<4 m

Q: A charge distribution has the charge density p=Q{s(x-x,)-5(x+x,)} . For this charge distribution the…

A: To solve the problem, we will write the expression for electric field, and use Dirac delta function…

Q: The x=2 and y=-3 planes have surface charge densities of o₁ = 10 nC/m² and 0₂ = 15 nC/m²…

A: σ1 = 10 nC/m2 at x=2 plane = ρs1σ2 = 15 nC/m2 at y=-3 plane =ρs2λ = 10π nC/m=ρL at x=0 and z=2

Q: Twire A slend of and radi 1.20 on cariesa umet of.170 A Determine the magnitule of the magnetic…

Q: Consider a thin, spherical shell of radius 12.5 cm with a total charge of 34.9 µC distributed…

A: (a) The radius of the shell is 12.5 cm. Therefore, the point 10.0 cm from the center of the sphere…

Q: Find the electric field at the point P (0,5,0) due to a charged body with a charge density of 30 nC…

A: charge density of 30 nC / m on the Z-axis surface charge density of 20ϵo nC/m2 at y = 10 m find…

Q: Consider a spherical charge distribution with the total charge Q 2 pC and radiusR=3 cm in which the…

A: Given:- Total charge = Q = 2 x 10-12 C Radius of the sphere = R = 3 cm = 0.03 m k = 9 x 109 Nm2/C2…

Q: There are two infinite sheets A and B in the figure above. The charge density of sheet A is,…

Q: A long, nonconducting, solid cylinder of radius 5.3 cm has a nonuniform volume charge density p that…

A: Given data: A=3.5μC/m5=3.5×10-6C/m5 Area of the cylindrical surface is 2πrl Volume within the…

Q: The charge Q1 is at point A(0.6) while the charge Q2 is at point B(-10.0), the two charges are Q1 =…

Q: Volume charge density is given as p_v= 10^(-3)e^(-100r)sin0 C/m^3 for 0 ≤ r ≤ 19 cm, and p_v= O for…

Q: Consider a thin, spherical shell of radius 13.0 cm with a total charge of 35.2 µC distributed…

Q: An infinite cylinder of radius R has a charge density given by p(r) = ar³, where r is the…

Q: An infinitely long insulating cylinder of radius R=1.2m has a volume charge density that varies with…

Q: A charge distribution has the charge density given by p = Q{s(x– x,)– 8(x+ x, }. For this charge…

Q: On the x-y plane, a point charge Q = –4.35E-6 C is placed at the origin (0.00 m, 0.00m). The…

Q: A charge distribution creates the following electric field throughout all space: E(r, 0, q) = (3/r)…

Q: 7. Given an arc of a circle of some length, we can calculate the associated angle of that arc ae.…

A: 6. The linear charge density is, λ=Q2πr=8 μC2π7 cm=0.18189 μCcm-1 thus, the charge carried by the…

Question

Consider a spherically symmetric distribution of charge where the charge density as a function of distance from the center is given by ? (r) = 9.3 r⁴ x 10^-12 C/m³ (note the 10^-12will cancel the 10^-12in ?0). This charge distribution extends from r = 0 to r = 5.3 m, and beyond that the charge density is 0. Calculate the magnitude of the electric field r = 8.1 m away from the center of the distribution, in N/C. Use ?0 = 8.85 x 10^-12 F/m.

(Please answer to the fourth decimal place - i.e 14.3225)

Expert Solution