A spherically symmetric charge distribution produces the electric field E⃗ =(250/r)r^N/C, where r is in m. What is the electric field strength at r = 20.0 cm? What is the electric flux through a 15.0-cm-diameter spherical surface that is concentric with the charge distribution?
A spherically symmetric charge distribution produces the electric field E⃗ =(250/r)r^N/C, where r is in m....
A spherically symmetric charge distribution produces the electric field E⃗ =( 4600 r2)r^N/C, where r is in m. What is the electric field strength at r = 15.0 cm ? What is the electric flux through a 30.0-cm-diameter spherical surface that is concentric with the charge distribution? How much charge is inside this 30.0-cm-diameter spherical surface?
How much charge is inside this 40.0-cm-diameter spherical surface? A spherically symmetric charge distribution produces the electric field E (250/ r ) where r is in m. N/C,
3. (20) A spherically symmetric charge distribution creates the following electric field (2) E E,r with 20 r r < a for 4meoa3 (3) E,= Q 4mor2 for r> a where Q and a are positive constants of suitable units. (a) Draw a graph of E, for 0 <r3a; please label your graph clearly (b) Calculate the charge distribution that generates this electric field. (c) Draw a graph of the charge distribution for 0 <r< 3a; please label your graph...
Please help !!! Calculate the magnitude of the flux of a constant electric field of 5.0 NC in the z -direction through a rectangle with area 4.0 m2 in the xy plane. a. 0 b. 5.0 N-m2/C c. 10.0 N-m2/C d. 20.0 N-m/C 10. 11. A circular ring of charge of radius b has a total charge q uniformly distributed around it. The electric field at the center of the ring is a. 0 12. A solid spherical conductor has...
Can someone please help me with this question? I cant seem do get the right answer! An expression for the electric field that was produced by a spherically symmetric distribution is 2.47×103r2 [^(r)] N/C. A 28.0 cm diameter spherical surface shares its center with the spherical electric field. What is the flux through this spherical surface?
4 A spherically symmetric charge distribution has the following radial dependence for the volume charge density ρ: 0 if r R where γ is a constant a) What units must the constant γ have? b) Find the total charge contained in the sphere of radius R centered at the origin c) Use the integral form of Gauss's law to determine the electric field in the region r R. (Hint: if the charge distribution is spherically symmetric, what can you say...
Only part f) please! 4 A spherically symmetric charge distribution has the following radial dependence for the volume charge density ρ ρ(r) If r > R where y is a constant a) What units must the constant y have? b) Find the total charge contained in the sphere of radius R centered at the origin c) Use the integral form of Gauss's law to determine the electric field in the region r < R. Hint: if the charge distribution is...
Problem 3: In a certain region, a charge distribution exists that is spherically symmetric but nonuniform. That is, the volume charge density p(r) depends on the distancer from the center of the distribution but not on the spherical polar angles and . The electric potential V(r) due to this charge distribution is V(r) = Pop (1-3(E)? +2(3) forrsa; and V(r) = 0 for r > a, where po is a constant having units of C/m' and a is a constant...
-12 pcints SerPSET9 24 P010 The electric field everywhere on the surface of a thin, spherical shell of raditus 0.745 m is of magnitude 858 N/C and points radially toward the center of the sphere (a) What is the net charge within the sphere's surface? nc (b) What is the distribution of the charge inside the spherical shell O The negative charge has an asymmetric charge distribution O The positive charge has a spherically symmetric charge distribution. O The positive...
if the electric field do you to a point charge is 17 N/C at a distance of 1.5 m, what is the electric flux through a 1.5 m radius imaginary spherical surface centered on the point charge?