In a region, the potential is represented by V(x, y, z) = 6x - 8xy

Q: In a region, the potential is represented by $V(x, y, z) = 6x - 8xy - 8y + 6yz$, where $V$ is in volts and $x, y, z$ are in metres. The electric force experienced by a charge of $2$ coulomb situated at point $( 1, 1, 1)$ is

d Here, $V(x, y, z)=6 x-8 x y-8 y+6 y z$ The $x, y$ and $z$ components of electric field are $E_{x} =-\frac{\partial V}{\partial x}=-\frac{\partial}{\partial x}(6 x-8 x y-8 y+6 y z)$ $=-(6-8 y)=-6+8 y$ $E_{y} =-\frac{\partial V}{\partial y}=-\frac{\partial}{\partial y}(6 x-8 x y-8 y+6 y z)$ $=-(-8 x-8+6 z)=8 x+8-6 z$ $E_{z} =-\frac{\partial V}{\partial z}=-\frac{\partial}{\partial z}(6 x-8 x y-8 y+6 y z)=-6 y $ $\vec{E} =E_{x} \hat{i}+E_{y} \hat{j}+E_{z} \hat{k}$ $=(-6+8 y) \hat{i}+(8 x+8-6 z) \hat{j}-6 y \hat{k}$ At point $(1,1,1)$ $\bar{E}=(-6+8) \hat{i}+(8+8-6) \hat{j}-6 \hat{k}=2 \hat{i}+10 \hat{j}-6 \hat{k}$ The magnitude of electric field $\vec{E}$ is $\vec{E}=\sqrt{E_{x}^{2}+E_{y}^{2}+E_{z}^{2}}=\sqrt{(2)^{2}+(10)^{2}+(-6)^{2}}$ $=\sqrt{140}=2 \sqrt{35} \,{N} {C}^{-1}$ Electric force experienced by the charge $F=q E=2 \mathrm{C} \times 2 \sqrt{35} \mathrm{\,NC}^{-1}=4 \sqrt{35}\mathrm{\,N}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

In a region, the potential is represented by $V(x, y, z) = 6x - 8xy - 8y + 6yz$, where $V$ is in volts and $x, y, z$ are in metres. The electric force experienced by a charge of $2$ coulomb situated at point $( 1, 1, 1)$ is

A$6$$\sqrt 5 $ $ N$
B$30\,\, N$
C$24\,\,N$
D$4$$\sqrt {35} $ $N$

AIPMT 2014, Medium

STD 11 Science
NEET
STD 12 - 2. Electric potential and capacitance
Physics

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