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state Gauss' law in electrostatics.

state Gauss' law in electrostatics

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it states that  total electric flux enclosed by closed surface is equal to 1/Eo times the net charge encloses by surface.

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it states that  total electric flux enclosed by closed surface is equal to 1/Eo times the net charge encloses by surface.

 

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It states that the total electric flux through a closed surface enclosing a charge is equal to times the magnitude of the charge enclosed.

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Gauss's law states that total electric flux enclosed by a closed surface is 1/E0 times the total charge enclosed by the surface

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When a charge is enclosed in closed surface area then net eflux is 1/e timeof the charge enclosed.

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The net outward normalelectric fluxthrough anyclosed surfaceis proportional to the totalelectric chargeenclosed within that closed surface

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The total flux passing throgh a enclosed surface is equal to 1/Eo times the charge enclosed by the surface.

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THE TOTAL NORMAL ELECTRIC INDUCTION OVER ANY CLOSED SURFACE IS EQUAL TO ALGEBRAIC SUM OF CHARGES ENCLOSED BY THAT SURFACE.

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gauss's law states that the electric flux of a closed surface is 1/? times of the charge present in surface
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the total electric flux out of a closed surface is equal to 1/Eo times the net charge enclosed by it.
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according to gauss's law total flux over a close surface S in vaccum is 1/Eo times the total charge enclosed by surface S
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Explain gauss law in electrostatics
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it states that the total flux of electric field through a closed surface is equal to 1/etimes the charge q enclosed by the surface 
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Karl gauss, one of the greatest mathematician formulated a law of expressing the relationship between the electric charge and electic field which is called Gauss' law.
It states that:
The total normal electric induction (T.N.E.I.) over any closed surface is equal to algebric sum of charges enclosed by that surface.
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Google kar na bhai
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T.N.E.I.=no.of charges inclosed by tjat surface
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Statement : “The total normal electric flux over a closed surface in an electric field is equal to 1/ƹ0 times the total charge enclosed by that surface.”

Mathematically it may be expressed as

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States that the total electric flux through a closed surface enclosing a charge is equal to the 1/E? times the magnitude of charge enclosed
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IT STATES THAT NO. OF ELECTRIC FIELD LINES PASSING THROUGH AN ENCLOSED SURFACE IS INVERSELY PROPORTIONAL TO EPSILON NOT(E0)
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It states that total flux passing through a closed surface is equal to 1/epsilon note times total charge present inside closed surface.
                                                         
 
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it states the total electric flux enclosed by closed surface is equal  to 1/Eo times the net charge by the surface
 
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The net flux prode in close surface is equal to the produst of 1/E. Times to charge praesent in close surface
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Please find this answer

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Net flux in c close surface is equal to the 1/E times of charges present in the close surface
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just its intesity of electric field x area of gausian surface
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The total number of electricline emitted by the charge are equal to total no. Of electricline passes through the close surface and enclosed by the surface
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It is stated that ''The total electric flux over the close surface in vacuum is equal to 1/epsilon times to the total flux enclosed by the close surface"
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The electric flux passing through the closed surface is equal to the 1/E0 time of the charge
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