A square surface of a side \(L\) \(\text{(m)}\) is in the plane of the paper. A uniform electric field \(\vec{E}\) \(\text{(V/m)},\) also in the plane of the paper, is limited only to the lower half of the square surface, (see figure). The electric flux in SI units associated with the surface is:     
  

1. \(EL^2/ ( 2ε_0 )\) 2.  \(EL^2 / 2\)
3. zero 4. \(EL^2\)
Subtopic:  Gauss's Law |
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AIPMT - 2006
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An electric field is uniform, and in the positive \(x\)-direction for positive \(x\), and uniform with the same magnitude but in the negative \(x\)-direction for negative \(x\). It is given that \(\vec{E}=200\hat{i}\) N/C for \(x>0\) and \(\vec{E}=-200\hat{i}\)  N/C for \(x<0\). A right circular cylinder of length \(20~\text{cm}\) and radius \(5~\text{cm}\) has its centre at the origin and its axis along the \(x\text{-}\)axis so that one face is at \(x= + 10~\text{cm}\) and the other is at \(x= -10~\text{cm}\) (as shown in the figure). What is the net outward flux through the cylinder?

1. \(0\)
2. \(1.57~\text{Nm}^2\text{C}^{-1}\)
3. \(3.14~\text{Nm}^2\text{C}^{-1}\)
4. \(2.47~\text{Nm}^2\text{C}^{-1}\)

Subtopic:  Gauss's Law |
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The electric field in a certain region is acting radially outward and is given by \(E=Aa.\) A charge contained in a sphere of radius \(a\) centered at the origin of the field will be given by:
1. \(4 \pi \varepsilon_{{o}} {A}{a}^2\)
2. \(\varepsilon_{{o}} {A} {a}^2\)
3. \(4 \pi \varepsilon_{{o}} {A} {a}^3\)
4. \(\varepsilon_{{o}} {A}{a}^3\)

Subtopic:  Gauss's Law |
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From NCERT
NEET - 2015
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If a charge \(Q\) is situated at the corner of a cube, the electric flux passing through all six faces of the cube is:

1. \(\frac{Q}{6\varepsilon_0}\) 2. \(\frac{Q}{8\varepsilon_0}\)
3. \(\frac{Q}{\varepsilon_0}\) 4. \(\frac{Q}{2\varepsilon_0}\)

Subtopic:  Gauss's Law |
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From NCERT
AIPMT - 2000
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If \(\oint_s \vec{E} \cdot {d \vec S}=0\) over a surface, then:
1. the electric field inside the surface is necessarily uniform.
2. the number of flux lines entering the surface must be equal to the number of flux lines leaving it.
3. the magnitude of electric field on the surface is constant.
4. all the charges must necessarily be inside the surface.
Subtopic:  Gauss's Law |
 79%
From NCERT
NEET - 2023
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Two parallel infinite line charges with linear charge densities \(+\lambda~\text{C/m}\) and \(+\lambda~\text{C/m}\) are placed at a distance \({R}.\) The electric field mid-way between the two line charges is:

1. \(\frac{\lambda}{2 \pi \varepsilon_0 {R}}~\text{N/C}\) 2. zero
3. \(\frac{2\lambda}{ \pi \varepsilon_0 {R}} ~\text{N/C}\) 4. \(\frac{\lambda}{ \pi \varepsilon_0 {R}}~\text{N/C}\) 
Subtopic:  Gauss's Law |
 65%
From NCERT
NEET - 2019
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Three charged particles having charges equal to \(+1\) C, \(-2\) C and \(+3\) C are placed on the \(x\)-axis at \(x=1\) cm, \(2\) cm, \(3\) cm respectively. Consider a sphere of radius \(10\) cm centred at the origin.
The magnitude of the flux of the electric field of these charges through the sphere is, numerically:
 
1. slightly greater than \(\frac{2}{\varepsilon_0}\)
2. slightly less than \(\frac{2}{\varepsilon_0}\)
3. exactly equal to \(\frac{2}{\varepsilon_0}\)
4. exactly equal to \(-\frac{2}{\varepsilon_0}\)
Subtopic:  Gauss's Law |
 81%
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