gauss law is applicable to certain symmetrical shapes
it cannot be used for disk and ring
Ohms law does not consider inductance
Error caused by instrumental limitations is actually called systematic error, not experimental error.
A: That will be the power dissipation of the device itself
advantages is:1) we are able to analyse relationship between current and voltage.2)able to give the resistance applied in circuit.there is only one limitations that is it can change its value if the circuit is left on for long time.thankyou:).
they can not provide a controlleble dc outut voltage.
Describe Gauss's law and its application to planar symmetry
Gauss law
Gauss law is a term used in physics. It refers to the distribution of an electric charge in an electric field.
Gauss's Law states that the electric flux from a closed surface matches the amount of the enclosed charge divided by the permittivity.
Obviously. If the Gauss gun shoots pushes something out at the front, this object will push back against the Gauss gun (Newton's Third Law).
Limitations of coulombs law
from anonymous surfer.... They are equal the only difference is that when the distance of the charge electrons are far so distant from each other, it is much better to apply Gauss's law while Coloumbs law for the other.....
Gauss law states that the total flux passing through a body is 1 upon epsilon times the charge enclosed by the body.
Maxwell's equations contain two scalar equations and two vector equations. Gauss' law and Gauss' law for magnetism are the scalar equations. The Maxwell-Faraday equation and Ampere's circuital law are the vector equations.
Gauss's law: Electric charges produce an electric field. Gauss's law for magnetism: There are no magnetic monopoles. Faraday's law: Time-varying magnetic fields produce an electric field. Ampère's law: Steady currents and time-varying electric fields produce a magnetic field.
The Gauss's Law is a general law applying to any closed surface.
Coulomb's Law, unlike Gauss'sLaw,applies only to stationary point charges and so is based on spherical symmetry.