1
MHT CET 2023 11th May Morning Shift
MCQ (Single Correct Answer)
+1
-0

Three point charges $$+\mathrm{q},+2 \mathrm{q}$$ and $$+\mathrm{Q}$$ are placed at the three vertices of an equilateral triangle. If the potential energy of the system of three charges is zero, the value of $$Q$$ in terms of $$q$$ is

A
$$\mathrm{Q}=-\frac{2 \mathrm{q}}{3}$$
B
$$Q=-\frac{1}{3} q$$
C
$$\mathrm{Q}=\frac{3 \mathrm{q}}{2}$$
D
$$Q=\frac{q}{2}$$
2
MHT CET 2023 11th May Morning Shift
MCQ (Single Correct Answer)
+1
-0

The bob of a simple pendulum of length '$$L$$' has a mass '$$\mathrm{m}$$' and charge '$$\mathrm{q}$$'. The pendulum is suspended between the plates of a charged parallel plate capacitor. The direction of electric field is shown in figure. The period of oscillations of the simple pendulum is (acceleration due to gravity $$\mathrm{g}>\mathrm{qE} / \mathrm{m}$$ )

MHT CET 2023 11th May Morning Shift Physics - Electrostatics Question 81 English

A
$$2 \pi \sqrt{\frac{\mathrm{L}}{\mathrm{g}}}$$
B
$$2 \pi\left[\frac{\mathrm{L}}{\frac{\mathrm{qE}}{\mathrm{m}}-\mathrm{g}}\right]^{\frac{1}{2}}$$
C
$$2 \pi\left[\frac{\mathrm{L}}{\mathrm{g}-\frac{\mathrm{qE}}{\mathrm{m}}}\right]^{\frac{1}{2}}$$
D
$$2 \pi\left[\frac{\mathrm{L}}{\mathrm{g}+\frac{\mathrm{qE}}{\mathrm{m}}}\right]^{\frac{1}{2}}$$
3
MHT CET 2023 10th May Evening Shift
MCQ (Single Correct Answer)
+1
-0

Assume that an electric field $$\mathrm{E}=30 \mathrm{x}^2 \hat{\mathrm{i}}$$ exists in space. If '$$\mathrm{V}_0$$' is the potential at the origin and '$$V_A$$' is the potential at $$x=2 \mathrm{~m}$$, then the potential difference $$\left(\mathrm{V}_{\mathrm{A}}-\mathrm{V}_0\right)$$ is

A
$$-80 \mathrm{~J}$$
B
$$-120 \mathrm{~J}$$
C
$$80 \mathrm{~J}$$
D
$$120 \mathrm{~J}$$
4
MHT CET 2023 10th May Morning Shift
MCQ (Single Correct Answer)
+1
-0

An electric dipole consisting of two opposite charges of $$2 \times 10^{-6} \mathrm{C}$$ separated by a distance of $$3 \mathrm{~cm}$$ placed in an electric field of $$2 \times 10^5 \mathrm{~N} / \mathrm{C}$$ then the maximum torque acting on dipole is

A
$$12 \times 10^{-1} \mathrm{~N}-\mathrm{m}$$
B
$$24 \times 10^{-3} \mathrm{~N}-\mathrm{m}$$
C
$$12 \times 10^{-3} \mathrm{~N}-\mathrm{m}$$
D
$$24 \times 10^{-1} \mathrm{~N}-\mathrm{m}$$
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