Homework Answers
Concepts used in the answer:- Gauss law and properties of electric flux is used in this solution
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A positive charge, q 23.1 nC is placed at the center of a 1 m wide...
Question 7 (#306159-13) (Gauss's Law) D2 A positive charge, q-23.8 nC is placed of the cube,...
Question 7 (#306159-13) (Gauss's Law) D2 A positive charge, q-23.8 nC is placed of the cube, as shown in blue in the figure below at the center of a 1 m wide cube. Calculate the electric flux, ФЕ. passing through the right face Enter answer here
Questions 5 Part A Part B A positive charge, q = 18.7 nC is placed at...
Questions 5
Part A
Part B
A positive charge, q = 18.7 nC is placed at the center of a 1 m wide cube. Calculate the electric flux, of the cube, as shown in blue in the figure below. E, passing through the right face A perfectly spherical hollow beach ball carries a net charge ofevenly distributed over its thin shell of plastic, as shown in the figure below. What is the direction of the electric field at points (A),...
Part A.) The electric flux through a spherical surface is 4.0\times 10^4~\text{N}\cdot\text{m}^2/\text{C}4.0×10 4 N⋅m 2...
Part A.) The electric flux through a spherical surface is
4.0\times 10^4~\text{N}\cdot\text{m}^2/\text{C}4.0×10 4 N⋅m 2
/C. What is the net charge enclosed by the surface?
Part B.) The electric field 10.0 cm from the surface of a copper
ball of radius 5.0 cm is directed toward the ball’s center and has
magnitude 9.0*10^2N/C. How much charge is on the surface of the
ball?
Select the correct answer
a.) 2.2*10^{-10} . b.)-1.25*10^{-10} . c.)-1.0* 10^{-9} .
d.)-4.5* 10^{-10) ....
A charge q= -90 nC sits at the center of a cube of side length L...
A charge q= -90 nC sits at the center of a cube of side length L = 1.15369248 m. Find a) the total flux of the electric field through the cubical surface. b) the flux through each of its faces, and c_ the flux through the surface of a cube that is twice as large, but is not centered on the charge, q.
3. A particle with charge Q = 5.00 µC is located at the center of a...
3. A particle with charge Q = 5.00 µC is located at the center of a cube of edge L = 0.100 m. In addition, six other identical charged particles having q = -1.00 µC are positioned symmetrically around Q as shown in the figure below. Determine the electric flux through one face of the cube.
19. A particle with charge Q = 5.00 μC is located at the center ube of...
19. A particle with charge Q = 5.00 μC is located at the center ube of edge L 0.100 m. In addition, six other iden- tical charged particles having q -1.00 μC are positioned of a c symmetrically around Q as shown in Figure P23.19. Deter- mine the electric flux through one face of the cube. 4% Figure P23.19 Problems 19 and 20 19a) What is the net charge inside the cube?1 b) What is the flux through the whole...
An electric point charge of Q = 13.1 nC is placed at the center of a...
An electric point charge of Q = 13.1 nC is placed at the center of a sphere with a radius of r = 32.1 cm. The sphere in this question is only a mathematical surface, it is not made out of any physical material. What is the electric flux through the surface of this sphere? Tries 0/12 This same point charge is now moved out from the center of the sphere by a distance of 17.9 cm. What is the...
A 8 nC point charge is at the center of a 1.6 m ? 1.6 m...
A 8 nC point charge is at the center of a 1.6 m ? 1.6 m ? 1.6 m cube. What is the electric flux through the top surface of the cube?
A charge q is placed at one of the corners of a cube of side a,...
A charge q is placed at one of the corners of a cube of side a,
as shown below. Find the magnitude of the electric flux through the
shaded face due to q. Assume q>0.
We were unable to transcribe this image24 Answer 6
A particle with charge 4.70 AuC is located at the center of a cube of edge...
A particle with charge 4.70 AuC is located at the center of a cube of edge L = 0.100 m. In addition, six other identical charged particles having q --1.5 Â C are positioned symmetrically around Q as shown in the figure below. Determine the electric flux through one face of the cube. kN m2/C 2 19
Question 7 (#306159-13) (Gauss's Law) D2 A positive charge, q-23.8 nC is placed of the cube, as shown in blue in the figure below at the center of a 1 m wide cube. Calculate the electric flux, ФЕ. passing through the right face Enter answer here
Questions 5
Part A
Part B
A positive charge, q = 18.7 nC is placed at the center of a 1 m wide cube. Calculate the electric flux, of the cube, as shown in blue in the figure below. E, passing through the right face A perfectly spherical hollow beach ball carries a net charge ofevenly distributed over its thin shell of plastic, as shown in the figure below. What is the direction of the electric field at points (A),...
Part A.) The electric flux through a spherical surface is
4.0\times 10^4~\text{N}\cdot\text{m}^2/\text{C}4.0×10 4 N⋅m 2
/C. What is the net charge enclosed by the surface?
Part B.) The electric field 10.0 cm from the surface of a copper
ball of radius 5.0 cm is directed toward the ball’s center and has
magnitude 9.0*10^2N/C. How much charge is on the surface of the
ball?
Select the correct answer
a.) 2.2*10^{-10} . b.)-1.25*10^{-10} . c.)-1.0* 10^{-9} .
d.)-4.5* 10^{-10) ....
19. A particle with charge Q = 5.00 μC is located at the center ube of edge L 0.100 m. In addition, six other iden- tical charged particles having q -1.00 μC are positioned of a c symmetrically around Q as shown in Figure P23.19. Deter- mine the electric flux through one face of the cube. 4% Figure P23.19 Problems 19 and 20 19a) What is the net charge inside the cube?1 b) What is the flux through the whole...
A charge q is placed at one of the corners of a cube of side a,
as shown below. Find the magnitude of the electric flux through the
shaded face due to q. Assume q>0.
We were unable to transcribe this image24 Answer 6
A particle with charge 4.70 AuC is located at the center of a cube of edge L = 0.100 m. In addition, six other identical charged particles having q --1.5 Â C are positioned symmetrically around Q as shown in the figure below. Determine the electric flux through one face of the cube. kN m2/C 2 19
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