In Gauss's law `epsilon_(0)ointvec(E).bar(ds)= Q_("enclosed"), ` is `vec(E)` only due to charges enclosed ?

Statement - 1 : If a concentric spheerical Gaussian surface is drawn inside thin spheical shell charge, electric field (E) at each point of surface must be zero. Statement - 2 : In accordance with Gauss's law phi_(E)=oint vec(E).d vec(A)=(Q_("net enclosed"))/(epsilon_(0)) Q_("net enclosed")=0" implies "phi_(E)=0

Gauss's law and Coulomb's law , although expressed in different forms , are equivalent ways of describing the relation between charge and electric field in static conditions . Gauss's law is epsilon_(0) phi = q_(encl) ,when q(encl) is the net charge inside an imaginary closed surface called Gaussian surface. The two equations hold only when the net charge is in vaccum or air . A Gaussian surface encloses two of the four positively charged particles. The particles that contribute to the electric field at a point P on the surface are

Gauss's law and Coulomb's law , although expressed in different forms , are equivalent ways of describing the relation between charge and electric field in static conditions . Gauss's law is epsilon_(0) phi = q_(encl) ,when q(encl) is the net charge inside an imaginary closed surface called Gaussian surface. The two equations hold only when the net charge is in vaccum or air . If the charge q_(3) and q_(4) are displaced (always remaining outside the Gaussian surface), then consider the following two statements : A : Electric field at each point on the Gaussian surface will remain same . B : The value of oint vec(E ) .d vec(A) for the Gaussian surface will remain same.

Gauss's law and Coulomb's law , although expressed in different forms , are equivalent ways of describing the relation between charge and electric field in static conditions . Gauss's law is epsilon_(0) phi = q_(encl) ,when q(encl) is the net charge inside an imaginary closed surface called Gaussian surface. The two equations hold only when the net charge is in vaccum or air . The net flux of the electric field through the surface due to q_(3) and q_(4) is

Gauss's law and Coulomb's law , although expressed in different forms , are equivalent ways of describing the relation between charge and electric field in static conditions . Gauss's law is epsilon_(0) phi = q_(encl) ,when q(encl) is the net charge inside an imaginary closed surface called Gaussian surface. The two equations hold only when the net charge is in vaccum or air . The net flux of the electric field through the surface is

five charge q_(1),q_(2),q_(3),q_(4) and q_(5) are fixed at their positions as shown in figure . s is Gaussian surface .The Gauss's law is given by ointvec(E).vec(ds)=(q)/(epsilon_(0)) Which of the following statement is correct?

Gauss's law is true only if force due to a charge varies as