Potential due to an Electric Dipole
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Electrostatic Potentials and Capacitance

272235 The value of electric potential at any point due to any electric dipole is

1 \(k \cdot \frac{\vec{p} \times{ }_r}{r^2}\)
2 \(k \cdot \frac{\vec{p} \times \vec{r}}{\tau^3}\)
3 \(k \cdot \frac{\vec{p} \cdot \vec{T}}{\tau^2}\)
4 \(k \cdot \frac{\vec{p} \cdot r^2}{r^3}\)
NCERT Page-55
Electrostatic Potentials and Capacitance

272236 Four points \(a, b, c\) and d are set at equal distance from the centre of a dipole as shown in figure. The electrostatic potential \(V_a, V_b, V_c\), and \(V_d\) would satisfy the following relation:

1 \(V_a>V_b>V_c>V_d\)
2 \(V_a>V_b=V_d>V_c\)
3 \(V_b=V_a>V_a>V_c\)
4 \(V_{\mathrm{a}}>V_{\mathrm{c}}=V_{\mathrm{b}}=V_{\mathrm{d}}\)
NCERT Page-55
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Electrostatic Potentials and Capacitance

272235 The value of electric potential at any point due to any electric dipole is

1 \(k \cdot \frac{\vec{p} \times{ }_r}{r^2}\)
2 \(k \cdot \frac{\vec{p} \times \vec{r}}{\tau^3}\)
3 \(k \cdot \frac{\vec{p} \cdot \vec{T}}{\tau^2}\)
4 \(k \cdot \frac{\vec{p} \cdot r^2}{r^3}\)
NCERT Page-55
Electrostatic Potentials and Capacitance

272236 Four points \(a, b, c\) and d are set at equal distance from the centre of a dipole as shown in figure. The electrostatic potential \(V_a, V_b, V_c\), and \(V_d\) would satisfy the following relation:

1 \(V_a>V_b>V_c>V_d\)
2 \(V_a>V_b=V_d>V_c\)
3 \(V_b=V_a>V_a>V_c\)
4 \(V_{\mathrm{a}}>V_{\mathrm{c}}=V_{\mathrm{b}}=V_{\mathrm{d}}\)
NCERT Page-55
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