Electric potential is given by

V=6x8xy28y+6yz4z2

Then electric force acting on 2C point charge placed on origin will be 

(1) 2N

(2) 6N

(3) 8N

(4) 20N

Subtopic:  Relation between Field & Potential |
 67%
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Consider two points \(1\) and \(2\) in a region outside a charged sphere. Two points are not very far away from the sphere. If \(E\) and \(V\) represent the electric field vector and the electric potential, which of the following is not possible?

1.  \(\left|\vec{E}_1\right|=\left|\vec{E}_2\right|, V_1=V_2\)
2. \(\vec{E}_1 \neq \vec{E}_2, V_1 \neq V_2\)
3. \(\vec{E}_1 \neq \vec{E}_2, V_1=V_2\)
4. \(\left|\vec{E}_1\right|=\left|\vec{E}_2\right|, V_1 \neq V_2\)
Subtopic:  Relation between Field & Potential |
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A uniform electric field pointing in positive x-direction exists in a region. Let A be the origin, B be the point on the x-axis at x = +1 cm and C be the point on the y-axis at y = +1 cm. Then the potentials at the points A, B and C satisfy 

(1) VA < VB

(2) VA > VB

(3) VA < VC

(4) VA > VC

Subtopic:  Relation between Field & Potential |
 79%
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The electric potential at a point (x, y) in the xy plane is given by V = –kxy. The field intensity at a distance r from the origin varies as 

(1) r2

(2) r

(3) 1r

(4) 1r2

Subtopic:  Relation between Field & Potential |
 56%
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Two equal point charges are fixed at x = –a and x = +a on the x-axis. Another point charge Q is placed at the origin. The change in the electrical potential energy of Q, when it is displaced by a small distance x along the x-axis, is approximately proportional to 

(1) x

(2) x2

(3) x3

(4) 1/x

Subtopic:  Electric Potential Energy |
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An elementary particle of mass \(m\) and charge \(+e\) is projected with velocity \(v\) at a much more massive particle of charge \(Ze\), where \(Z>0\). What is the closest possible approach of the incident particle?

1. \(\frac{Z e^2}{2 \pi \varepsilon_0 m v^2} \) 2. \(\frac{Z_e}{4 \pi \varepsilon_0 m v^2} \)
3. \(\frac{Z e^2}{8 \pi \varepsilon_0 m v^2} \) 4. \(\frac{Z_e}{8 \pi \varepsilon_0 m v^2}\)
Subtopic:  Electric Potential Energy |
 67%
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A solid conducting sphere having a charge Q is surrounded by an uncharged concentric conducting hollow spherical shell. Let the potential difference between the surface of the solid sphere and that of the outer surface of the hollow shell be V. If the shell is now given a charge of –3Q, the new potential difference between the same two surfaces is 

(1) V

(2) 2V

(3) 4V

(4) –2V

Subtopic:  Electric Potential |
 52%
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A piece of cloud is having area \(25\times 10^{6}~\text{m}^2\) and an electric potential of \(10^5\) volts. If the height of cloud is \(0.75~\text{km}\), then find the energy of the electric field between the earth and the cloud will be: 
1. \(250~\text{J}\)
2. \(759~\text{J}\)
3. \(1225~\text{J}\)
4. \(1475~\text{J}\)

Subtopic:  Electric Potential Energy |
 52%
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A parallel plate air capacitor has a capacitance of 100 μF. The plates are at a distance d apart. If a slab of thickness t(td) and dielectric constant 5 is introduced between the parallel plates, then the capacitance will be 

(1) 50 μμF

(2) 100 μμF

(3) 200 μμF

(4) 500 μμF

Subtopic:  Dielectrics in Capacitors |
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Capacitance of a capacitor made by a thin metal foil is 2 μF. If the foil is folded with paper of thickness 0.15 mm, dielectric constant of paper is 2.5 and width of paper is 400 mm, then length of foil will be 

(1) 0.34 m

(2) 1.33 m

(3) 13.4 m

(4) 33.9 m

Subtopic:  Dielectrics in Capacitors |
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