Two small balls with charges q₁ = 8.8 µC and q = -16.1 µC are separated by a distance d = 5.0 cm. Calculate the electric flux passing through th following three surfaces: $1 = A spherical surface of radius 2.1 cm centered on the first charge. -8.24 * 10⁹ A spherical surface of radius 14 cm centered on the second charge. A spherical surface of radius 1.4 cm centered at the midpoint of a line connecting them.

Two small balls with charges q₁ = 8.8 µC and q = -16.1 µC are separated by a distance d = 5.0 cm. Calculate the electric flux passing through th following three surfaces: $1 = A spherical surface of radius 2.1 cm centered on the first charge. -8.24 * 10⁹ A spherical surface of radius 14 cm centered on the second charge. A spherical surface of radius 1.4 cm centered at the midpoint of a line connecting them.

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter25: Gauss’s Law

Section: Chapter Questions

Problem 43PQ: The nonuniform charge density of a solid insulating sphere of radius R is given by = cr2 (r R),...

See similar textbooks

Similar questions

The figure shows two concentric insulating thin spherical shells: Sphere 1 of radius R₁ = 20 cm and a total charge Q₁ = 90 nC. Sphere 2 o adius R₂ = 70 cm and a total charge Q2 = -10 nC. E = 1. Find the magnitude of the net electric field at a distance r= 140 cm from the center of the two spheres. 2. Q₂ The net electric filed vector at a distance r= 140 cm from the center of the two [N/C] spheres is pointing: Ooutward E = R₁ E = 3. Find the magnitude of the net electric field at a distance r= 36 cm from the center of the two spheres. [N/C] 4. Find the magnitude of the net electric field at a distance r= 8 cm from the center of the two spheres. Oinward [N/C]
A solid conducting cylinder, which has a charge Q1 =91Q and radius ra = 2.2R is placed inside a very thin cylindrical shell of radius rp = 4.6R and charge Q2 =-15Q as shown in the figure below. Q2 Find the magnitude of the electric field at r=5.4R. Express your answer using one decimal point in units of περRL
Calculate the electric field at the point x meters on the axis of the ring if the total charge on the ring = Q, and there is a point charge of strength q in the center of the ring. Given: Q = +30 nanocoulombs. q = -21 nanocoulombs. x = 2.8 m. Radius = a = 0.4 m. Ans: 24.77
A spherically symmetric charge distribution produces the electric field E- (3x10 ) N/C along the radial directrion, where r is in m. How much charge (in nC) is inside a 0.2 m radius spherical sphere?
A solid conducting sphere, which has a charge Q1 =41Q and radius ra = 2R is placed inside a very thin spherical shell of radius rb = 6.6R and charge Q2 =-6Q as shown in the figure below. Q2 Q1 ra Find the magnitude of the electric field at r=4.5. Express your answer using one decimal point in units 1 where k = of k 4TEO
A solid conducting cylinder, which has a charge Q1 =77Q and radius r.= 2.5R is placed inside a very thin cylindrical shell of radius rp - 3.8R and charge Q2 -2Q as shown in the figure below. Q2 R2 Q1 Find the magnitude of the electric field at r=5.5R. Express your answer using one decimal point in units of TEORL
A spherical volume of radius R= 10 Cm is charged uniformly with 5 nC/m3. Determine the magnitude of electric field at r = 15 cm
Charge is distributed throughout a spherical volume of radius R with a density p = ar6, where a is a constant and ris the distance from the center of the sphere. Determine the electric field due to the charge at a point a distance r from the center that is inside the sphere, and at a point a distance r from the center that is outside the sphere. (Enter the radial component of the electric field. Use the following as necessary: R, a, r, and ɛn.) inside the sphere E = outside the sphere E =
A solid conducting sphere, which has a charge Q1 =71Q and radius rg = 1.7R is placed inside a very thin spherical shell of radius r, = 4.9R and charge Q2 =-5Q as shown in the figure below. Q2 rb Find the magnitude of the electric field at r=6.7. Express your answer using one decimal point in units 1 where k = R2 of k 4TTEO
Part (d) Calculate the y-component of the electric field at point P due to both charges. Write your answer in units of N/C. Exnet=-2280.33 Ex.net = -2280. X Attempts Remain Part (e) Calculate the magnitude of the electric field at point P due to both charges. Write your answer in units of N/C. E= sin() cotan() atan() cosh() 6 cos() tan() π (7 8 9 asin() acos() E 45 acotan() sinh() tanh() cotanh() Degrees O Radians 1 2 3 0 Submit Hint * Feedback - HOME + END NO BACKSPACE DEL CLEAR I give up! ← → Part (f) Calculate the angle in degrees of the electric field at point P relative to the positive x-axis.
What must be the charge of an isolated spherical conductor 30.0 cm in diameter to produce an electric field of 150 N/C just outside the surface? Given: Formula: Solution:
A non-conducting spherical shell has an inner radius & and an outer radius 28. There are no charges at r<& wherer is the distance from the center of the sphere. A total charge is distributed uniformly in the volume of the shell (between r=R and r=2R) Find the magnitude of the electric field at r=1718. Express your answer in units of using two decimal R² kQ places