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A nonuniform electric field is directed along the x-axis. What is the net electrical flux passing the cylindrical surface?
The net electrical flux passing through a cylindrical surface in a nonuniform electric field is given by the integral of the electric field dot product with the surface area vector over the surface. The flux depends on the strength and direction of the electric field, as well as the shape and orientation of the surface.
What is Gauss theorem of electrostatics?
Gauss's theorem of electrostatics states that the net electric flux through a closed surface is proportional to the total charge enclosed by that surface. In mathematical terms, it can be expressed as Φ = Q/ε₀, where Φ is the electric flux, Q is the total charge enclosed, and ε₀ is the permittivity of free space.
If more electric field lines are leaving a gaussian surface than entering what can you conclude about the net charge enclosed by that surface?
If more electric field lines are leaving a Gaussian surface than entering, this indicates that there is a net positive charge enclosed by the surface. According to Gauss's Law, the total electric flux through a closed surface is directly proportional to the net charge enclosed by that surface.
What is the net movement of electric charges in a single direction?
The net movement of electric charges in a single direction is called electric current. This current flows through a conductor, such as a wire, and is responsible for carrying electrical energy from one place to another. It is measured in Amperes (A).
Is it possible for the electric potential at the center of the cube to be zero?
Electric potential is a scalar which means you merely add up all the potentials at the center of the cube while ignoring the direction it is pointed in. I supposed voltage (or electric potential) could be 0 if you have an even number of positive and negative charges all with the same distance from the center (if the charges are on the corners of the square the distances would in fact be the same).
What is the net electric flux through the torus (i.e. doughnut shape) of the figure (Figure 1) Assume that Q100nC and q and minus6.0nC.?
To determine the net electric flux through the torus, we can use Gauss's Law, which states that the electric flux through a closed surface is proportional to the enclosed charge. If the torus does not enclose any charge (meaning the total charge inside is zero), then the net electric flux through the torus will also be zero, regardless of the charges outside it. Given that the charges are ( +100 , \text{nC} ) and ( -6.0 , \text{nC} ), the net charge inside the torus would be ( 100 , \text{nC} - 6.0 , \text{nC} = 94 , \text{nC} ). Therefore, the net electric flux through the torus would be ( \frac{94 , \text{nC}}{\varepsilon_0} ), where ( \varepsilon_0 ) is the permittivity of free space.
A nonuniform electric field is directed along the x-axis. What is the net electrical flux passing the cylindrical surface?
The net electrical flux passing through a cylindrical surface in a nonuniform electric field is given by the integral of the electric field dot product with the surface area vector over the surface. The flux depends on the strength and direction of the electric field, as well as the shape and orientation of the surface.
What is the total flux across a gaussian sphere enclosing an electric dipole?
The total flux across a Gaussian sphere enclosing an electric dipole is zero. This is because the electric field lines originating from the positive charge of the dipole cancel out the electric field lines terminating at the negative charge within the sphere, resulting in a net flux of zero according to Gauss's Law.
What is Gauss theorem of electrostatics?
Gauss's theorem of electrostatics states that the net electric flux through a closed surface is proportional to the total charge enclosed by that surface. In mathematical terms, it can be expressed as Φ = Q/ε₀, where Φ is the electric flux, Q is the total charge enclosed, and ε₀ is the permittivity of free space.
If more electric field lines are leaving a gaussian surface than entering what can you conclude about the net charge enclosed by that surface?
If more electric field lines are leaving a Gaussian surface than entering, this indicates that there is a net positive charge enclosed by the surface. According to Gauss's Law, the total electric flux through a closed surface is directly proportional to the net charge enclosed by that surface.
A Gaussian surface does not enclose a charge Does it mean that E equals 0 on its surface?
No.there can be electric field on the Gaussian surface even if the charge enclosed by it is zero.However ,net flux will be zero through the surface.
What are nets of a solid......like a cube's net...or a cuboids net?
a cube's net
Does a cube have 8 net if it does show you them?
A cube has a net of 6 not 8.
What does the net of a cube mean?
The net of a cube is a 2 dimensional representation of it.
How is the net of cube the same as the net of rectangular prism that is not a cube?
The nets are NOT the same.
What determines which direction facilitated diffusion occurs?
The concentration determines the directions based on the net flux. The net flux moves from a higher concentration to a lower concentration.
What is Nets of a Cube?
Well, the nets of the cube are basically when you get a 3D cube and flatten it. That gives you the 2D shape of a cube, which is know as the net. There are 11 nets for a cube. Here they are.
