What is an electric flux? Formulate the Gauss’s law.

Finding the electric field using Gauss’s law may seem to be a hopeless task. After all,...

Finding the electric field using Gauss’s law may seem to be a hopeless task. After all, while the electric field does appear in the equation, it is only the normal component that emerges from the dot product, and it is only the integral of that normal component over the entire surface that is proportional to the enclosed charge. (ii) Do realistic situations exist in which it is possible to dig the electric field out of its interior position in Gauss’s...

a) Use Gauss’s Law to derive radial dependence of the electric field inside a very long...

a) Use Gauss’s Law to derive radial dependence of the electric field inside a very long cylindrical shell of radius R and surface charge density σ? b) Same as a) except outside the shell? explain it clear plz

a) By using Gauss’s law, find the electric field inside, outside and inbetween two concentric spherical...

a) By using Gauss’s law, find the electric field inside, outside and inbetween two concentric spherical metal shells, assuming that the inner shell, of radius a, carries a charge of -Q and the outer shell, of radius b, carries a charge of Q. b) By making use of the result in part (a), find the energy stored in the system made of two concentric spherical metal shells. c) By using the result in part (a) find the electric potential difference...

Using Gauss’s Law, answer the following question An insulator of radius, a = 3 cm is...

Using Gauss’s Law, answer the following question An insulator of radius, a = 3 cm is placed inside an SPHERICAL shell conductor of inner radius b = 7 cm and outer radius c = 12 cm. The conductor has a total charge of Q = - 10 nC. The insulator has a charge distributed around its volume with charge density ρ, where the value of ρo = 2 ∗ 10−4  C/m3 . a) Compute the value of the TOTAL charge of...

Explain if and how the principles of Gauss’s law would apply to a coin cell battery...

Explain if and how the principles of Gauss’s law would apply to a coin cell battery with positive and negative ions in the eletrolyte. Would the properties of Gauss’s law cause a concentration gradient in the electrolyte over time? In this case the coin cell is made of stainless steel. Thanks!!!

In the case of a uniform electric field and a flat surface, the electric flux is...

In the case of a uniform electric field and a flat surface, the electric flux is defined as the dot product of the electric field and the area, where the direction of the area is the normal to the area pointing out of a closed region. Consider a cube that measures 4.0 m on edge. The edges lie along the coordinate axes x, y, and z, with one corner at the origin, and the other corners having positive coordinates. A...

a) Describe in words and/or mathematical symbols how to calculate the electric flux. You may use...

a) Describe in words and/or mathematical symbols how to calculate the electric flux. You may use an example. b) Describe in words and/or mathematical symbols the law of Gauss for electrostatics. You may use an example. c) What is the purpose of Gauss’ law in electrostatics and why is it useful?

The flux of the electric field    through an area    is

The flux of the electric field    through an area    is

12-A spherical ball of charged particles has a uniform charge density. From Gauss’s Law, derive equations...

12-A spherical ball of charged particles has a uniform charge density. From Gauss’s Law, derive equations for the electric field magnitude as a function of radius, inside, and outside, of the ball. Sketch and label a graph to illustrate this variation. (c) A Geiger counter is used to detect ionizing radiation. For this device, a positively charged central wire is surrounded by a concentric, conducting cylindrical shell with an equal negative charge, creating a strong radial electric field. The shell...

Consider a uniform electric field E=2kN/C i. a) What is the flux of this field through...

Consider a uniform electric field E=2kN/C i. a) What is the flux of this field through a square of side 10cm in a plane parallel to the yz plane. b) What is the flux through the same square if the normal to its plane makes an angle of 30 degrees with the x axis?