359371 It is possible to have a positively charged body at

359372 An electric change ${10}^{-6}\mu C$ is placed at origin $(0,0)m$ of $X-Y$ co-ordinate system. Two points $P$ and $Q$ are situated at $\left(\sqrt{3},\sqrt{3}\right)m$ and $\left(\sqrt{6},0\right)m$ respectively. The potential difference between the points $P$ and $Q$ will be :

359373 A point $P$ is at a distance $r$ from a point charge $q$. If at point $P$, the electric potential is $300V$, and the electric field intensity is $75V/m$, then the distance of $P$ from the point charge is

359371 It is possible to have a positively charged body at

359372 An electric change ${10}^{-6}\mu C$ is placed at origin $(0,0)m$ of $X-Y$ co-ordinate system. Two points $P$ and $Q$ are situated at $\left(\sqrt{3},\sqrt{3}\right)m$ and $\left(\sqrt{6},0\right)m$ respectively. The potential difference between the points $P$ and $Q$ will be :

359373 A point $P$ is at a distance $r$ from a point charge $q$. If at point $P$, the electric potential is $300V$, and the electric field intensity is $75V/m$, then the distance of $P$ from the point charge is

359374 Electric potential at a point ' $P$ ' due to a point charge of $5\times {10}^{-9}C$ is $50V$. The distance of ' $P$ ' from the point charge is (Assume $\frac{1}{4\pi {\epsilon }_0}=9\times {10}^{+9}N{m}^2{C}^{-2}$)

359371 It is possible to have a positively charged body at

359372 An electric change ${10}^{-6}\mu C$ is placed at origin $(0,0)m$ of $X-Y$ co-ordinate system. Two points $P$ and $Q$ are situated at $\left(\sqrt{3},\sqrt{3}\right)m$ and $\left(\sqrt{6},0\right)m$ respectively. The potential difference between the points $P$ and $Q$ will be :

359373 A point $P$ is at a distance $r$ from a point charge $q$. If at point $P$, the electric potential is $300V$, and the electric field intensity is $75V/m$, then the distance of $P$ from the point charge is

359374 Electric potential at a point ' $P$ ' due to a point charge of $5\times {10}^{-9}C$ is $50V$. The distance of ' $P$ ' from the point charge is (Assume $\frac{1}{4\pi {\epsilon }_0}=9\times {10}^{+9}N{m}^2{C}^{-2}$)

359371 It is possible to have a positively charged body at

359372 An electric change ${10}^{-6}\mu C$ is placed at origin $(0,0)m$ of $X-Y$ co-ordinate system. Two points $P$ and $Q$ are situated at $\left(\sqrt{3},\sqrt{3}\right)m$ and $\left(\sqrt{6},0\right)m$ respectively. The potential difference between the points $P$ and $Q$ will be :

359373 A point $P$ is at a distance $r$ from a point charge $q$. If at point $P$, the electric potential is $300V$, and the electric field intensity is $75V/m$, then the distance of $P$ from the point charge is

359374 Electric potential at a point ' $P$ ' due to a point charge of $5\times {10}^{-9}C$ is $50V$. The distance of ' $P$ ' from the point charge is (Assume $\frac{1}{4\pi {\epsilon }_0}=9\times {10}^{+9}N{m}^2{C}^{-2}$)