MHT CET (PCB) 2024 22th April Evening Shift | Electrostatics Question 3 | Physics

The potentials at points A and B are $\mathrm{V}_{\mathrm{A}}$ and $\mathrm{V}_{\mathrm{B}}$ respectively for the charges $+q$ and $-q$ placed at distances ' $x$ ' each from points $A$ and $B$ as shown in figure. The distance between points $A$ and B is ' y '. The net potential $\left(\mathrm{V}_{\mathrm{A}}-\mathrm{V}_{\mathrm{B}}\right)$ is proportional to

MHT CET (PCB) 2024 22th April Evening Shift Physics - Electrostatics Question 2 English

$\frac{2 q y}{x(x+y)}$

$\frac{-2 q y}{x(x+y)}$

$\frac{q y}{x(x+y)}$

Zero

MHT CET (PCB) 2024 22th April Morning Shift

MCQ (Single Correct Answer)

-0

A hollow charged metal sphere has a radius ' $r$ '. If the potential difference between its surface and a point at a distance ' 3 r ' from the centre is ' $v$ ', then the electric field intensity at a distance ' $3 r$ ' is

$\frac{\mathrm{V}}{2 \mathrm{r}}$

$\frac{\mathrm{v}}{3 \mathrm{r}}$

$\frac{v}{6 r}$

$\frac{\mathrm{v}}{4 \mathrm{r}}$

MHT CET (PCB) 2024 22th April Morning Shift

MCQ (Single Correct Answer)

-0

In the diagram, the total electric flux through the closed surface ' S ' is

[Given $\mathrm{q}=$ charge

$\varepsilon_0=$ permittivity of free space] MHT CET (PCB) 2024 22th April Morning Shift Physics - Electrostatics Question 5 English

$\frac{q}{\varepsilon_0}$

$\frac{-2 q}{\varepsilon_0}$

$\frac{-q}{\varepsilon_0}$

$\frac{3 q}{\varepsilon_0}$

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