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4/3/2019 Exam 2 - Page 5 of 7 General...
4/3/2019 Exam 2 - Page 5 of 7 General Physics II 3. (20 points) A nonuniform, but spherically sym...
please re do to get correct answer
4/3/2019 Exam 2 - Page 5 of 7 General Physics II 3. (20 points) A nonuniform, but spherically symmetric, distribution of charge has a charge density, p(r) given as follows; o(r) (Po(1%) for r < R for r 2 R , and R is the radius of the charged sphere. wherePo (a) (8 points) Show that po by integrating the charge density over the volume of the distribution. de torni apo Vrar l...
Problem 3: In a certain region, a charge distribution exists that is spherically symmetric but nonuniform....
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...
Only part f) please! 4 A spherically symmetric charge distribution has the following radial dependence for...
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...
Question 6 (5 marks) Two non-conducting spheres of equal radii R are placed adjacent to each...
Question 6 (5 marks) Two non-conducting spheres of equal radii R are placed adjacent to each other as shown in figure 5. Sphere 1 has a charge +91 distributed uniformly throughout its volume, and sphere 2 has charge +92 distributed uniformly throughout. A point P is chosen on the line joining the centers of the two spheres, at a distance R/2 from the centre of sphere 1 and 3R/2 from the centre of sphere 2. If the net electric field...
4. A spherically sym metric charge distribution has the following radial dependence for the volume charge...
4. A spherically sym metric 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 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 spherically symmetric, what...
4 A spherically symmetric charge distribution has the following radial dependence for the volume charge density...
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...
please solve with deatil draw please also and please clear hand written. 3. Non-uniformly Charged Sphere...
please solve with deatil
draw please also and please clear hand written.
3. Non-uniformly Charged Sphere (20 points). from the center of the A solid sphere of radius R has a charge density that is a function of distance sphere: p(r) = p.(1-rº/R2). a. What is the total charge on the sphere? b. Find the electric field as a function of r, both for r <R and r > R. Sketch the form of E(r). c. Find the electric potential...
Physics 2, unit: Electrostatics. Please answer all A spherical insulator with a radius 1.0 m and...
Physics 2, unit: Electrostatics. Please answer all
A spherical insulator with a radius 1.0 m and a charge density of -9 uC/m2 distributed uniformly throughout. Concentric to this sphere is a hollow, uncharged, metallic sphere of inner radius 2 m and outer radius of 3 m. Find the electric field at the radii r-0.8 m, and r-2.5m. What is the charge on the outside surface of the outer sphere? 2 m 3 m For a region in space, the electric...
The dome of a Van de Graaff generator receives a charge of 2.6 × 10-4 C...
The dome of a Van de Graaff generator receives a charge of 2.6 × 10-4 C Find the strength of the electric field in the following situations Hint: Review properties of conductors in electrostatic equilibrium. Also, use the points on the surface are outside a spherically symmetric charge distribution; the total charge may be considered to be located at the center of the sphere.) (a) inside the dome N/C (b) at the surface of the dome, assuming it has a...
Please answer as much as possible 1. Gauss's Law and Electrostatic Potential 10cm 5cm Figure 1....
Please answer as much as possible
1. Gauss's Law and Electrostatic Potential 10cm 5cm Figure 1. Figure 1 shows a spherical volume of radius 10cm with uniformly distributed charge. The volume charge density isp -100nCm'. The permittivity of the sphere is the same as free space. Permittivity of Free Space: auss's Law: Eo8.854 x 10-12 F/m , D . ds-otot ctric Flux Density: (a) Find the total charge in the entire 10cm sphere and the charge in the embedded smaller...
please re do to get correct answer
4/3/2019 Exam 2 - Page 5 of 7 General Physics II 3. (20 points) A nonuniform, but spherically symmetric, distribution of charge has a charge density, p(r) given as follows; o(r) (Po(1%) for r < R for r 2 R , and R is the radius of the charged sphere. wherePo (a) (8 points) Show that po by integrating the charge density over the volume of the distribution. de torni apo Vrar l...
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...
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...
Question 6 (5 marks) Two non-conducting spheres of equal radii R are placed adjacent to each other as shown in figure 5. Sphere 1 has a charge +91 distributed uniformly throughout its volume, and sphere 2 has charge +92 distributed uniformly throughout. A point P is chosen on the line joining the centers of the two spheres, at a distance R/2 from the centre of sphere 1 and 3R/2 from the centre of sphere 2. If the net electric field...
4. A spherically sym metric 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 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 spherically symmetric, what...
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...
please solve with deatil
draw please also and please clear hand written.
3. Non-uniformly Charged Sphere (20 points). from the center of the A solid sphere of radius R has a charge density that is a function of distance sphere: p(r) = p.(1-rº/R2). a. What is the total charge on the sphere? b. Find the electric field as a function of r, both for r <R and r > R. Sketch the form of E(r). c. Find the electric potential...
Physics 2, unit: Electrostatics. Please answer all
A spherical insulator with a radius 1.0 m and a charge density of -9 uC/m2 distributed uniformly throughout. Concentric to this sphere is a hollow, uncharged, metallic sphere of inner radius 2 m and outer radius of 3 m. Find the electric field at the radii r-0.8 m, and r-2.5m. What is the charge on the outside surface of the outer sphere? 2 m 3 m For a region in space, the electric...
The dome of a Van de Graaff generator receives a charge of 2.6 × 10-4 C Find the strength of the electric field in the following situations Hint: Review properties of conductors in electrostatic equilibrium. Also, use the points on the surface are outside a spherically symmetric charge distribution; the total charge may be considered to be located at the center of the sphere.) (a) inside the dome N/C (b) at the surface of the dome, assuming it has a...
Please answer as much as possible
1. Gauss's Law and Electrostatic Potential 10cm 5cm Figure 1. Figure 1 shows a spherical volume of radius 10cm with uniformly distributed charge. The volume charge density isp -100nCm'. The permittivity of the sphere is the same as free space. Permittivity of Free Space: auss's Law: Eo8.854 x 10-12 F/m , D . ds-otot ctric Flux Density: (a) Find the total charge in the entire 10cm sphere and the charge in the embedded smaller...
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