MHT CET 2021 20th September Morning Shift | Electrostatics Question 48 | Physics

An electric dipole having dipole moment $$\mathrm{P}=\mathrm{q} \times 2 \ell$$ is placed in a uniform electric field '$$\mathrm{E}$$'. The dipole moment is along the direction of the field. The force acting on it and its potential energy are respectively

$$\mathrm{qE}$$ and minimum

$$\mathrm{qE}$$ and maximum

$$2 \mathrm{qE}$$ and minimum

zero and minimum

MHT CET 2021 20th September Morning Shift

MCQ (Single Correct Answer)

-0

A uniformly charged half ring of a radius ' $R$ ' has linear charge density '$$\sigma$$'. The electric potential at the centre of the half ring is ( $$\epsilon_0=$$ permittivity of free space)

$$\frac{\sigma}{6 \epsilon_0}$$

$$\frac{\sigma}{2 \epsilon_0}$$

$$\frac{\sigma}{\epsilon_0}$$

$$\frac{\sigma}{4 \epsilon_0}$$

MHT CET 2021 20th September Morning Shift

MCQ (Single Correct Answer)

-0

A spherical conducting shell of inner radius 'r$$_1$$' and outer radius 'r$$_2$$' has a charge 'Q'. A charge $$-$$q is placed at the centre of the shell. The surface charge density on the inner and outer surface of the shell will be

MHT CET 2021 20th September Morning Shift Physics - Electrostatics Question 57 English

$$\frac{q}{4 \pi r_1^2}$$ and $$\frac{\mathrm{Q}-\mathrm{q}}{4 \pi \mathrm{r}_2^2}$$

$$\frac{q}{4 \pi r_1^2}$$ and $$\frac{Q}{4 \pi r_2^2}$$

$$\frac{-q}{4 \pi r_1^2}$$ and $$\frac{Q+q}{4 \pi r_2^2}$$

zero and $$\frac{\mathrm{Q}-\mathrm{q}}{4 \pi \mathrm{r}_2^2}$$

MHT CET 2021 20th September Morning Shift

MCQ (Single Correct Answer)

-0

A charge of magnitude '2e' and mass '4m' is moving in an electric field $$\overrightarrow E $$. The acceleration imparted to the above charge is

$$\mathrm{\frac{2m}{3Ee}}$$

$$\mathrm{\frac{Ee}{2m}}$$

$$\mathrm{\frac{2Ee}{3m}}$$

$$\mathrm{\frac{3m}{2Ee}}$$

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