1
JEE Main 2023 (Online) 31st January Evening Shift
MCQ (Single Correct Answer)
+4
-1
Change Language
Considering a group of positive charges, which of the following statements is correct ?
A
Net potential of the system cannot be zero at a point but net electric field can be zero at that point
B
Net potential of the system at a point can be zero but net electric field can't be zero at that point.
C
Both the net potential and the net electric field cannot be zero at a point.
D
Both the net potential and the net field can be zero at a point.
2
JEE Main 2023 (Online) 31st January Morning Shift
MCQ (Single Correct Answer)
+4
-1
Change Language

Which of the following correctly represents the variation of electric potential $$(\mathrm{V})$$ of a charged spherical conductor of radius $$(\mathrm{R})$$ with radial distance $$(\mathrm{r})$$ from the center?

A
JEE Main 2023 (Online) 31st January Morning Shift Physics - Electrostatics Question 100 English Option 1
B
JEE Main 2023 (Online) 31st January Morning Shift Physics - Electrostatics Question 100 English Option 2
C
JEE Main 2023 (Online) 31st January Morning Shift Physics - Electrostatics Question 100 English Option 3
D
JEE Main 2023 (Online) 31st January Morning Shift Physics - Electrostatics Question 100 English Option 4
3
JEE Main 2023 (Online) 30th January Evening Shift
MCQ (Single Correct Answer)
+4
-1
Change Language
As shown in the figure, a point charge $Q$ is placed at the centre of conducting spherical shell of inner radius $a$ and outer radius $b$. The electric field due to charge $\mathrm{Q}$ in three different regions $\mathrm{I}, \mathrm{II}$ and $\mathrm{III}$ is given by:

$(\mathrm{I}: r < a, \mathrm{II}: a < r < b$, III: $r>b$ )

JEE Main 2023 (Online) 30th January Evening Shift Physics - Electrostatics Question 98 English
A
$E_I=0, E_{I I}=0, E_{I I I} \neq 0$
B
$E_I \neq 0, E_{I I}=0, E_{III}=0$
C
$E_I \neq 0, E_{I I}=0, E_{III} \neq 0$
D
$E_I=0, E_{I I}=0, E_{I I I}=0$
4
JEE Main 2023 (Online) 30th January Morning Shift
MCQ (Single Correct Answer)
+4
-1
Change Language

Electric field in a certain region is given by $$\overrightarrow{\mathrm{E}}=\left(\frac{\mathrm{A}}{x^{2}} \hat{i}+\frac{\mathrm{B}}{y^{3}} \hat{j}\right) \text {. The } \mathrm{SI} \text { unit of } \mathrm{A} \text { and } \mathrm{B}$$ are :

A
$$\mathrm{Nm}^{2} \mathrm{C} ; \mathrm{Nm}^{3} \mathrm{C}$$
B
$$\mathrm{Nm}^{3} \mathrm{C}^{-1} ; \mathrm{Nm}^{2} \mathrm{C}^{-1}$$
C
$$\mathrm{Nm}^{3} \mathrm{C} ; \mathrm{Nm}^{2} \mathrm{C}$$
D
$$\mathrm{Nm}^{2} \mathrm{C}^{-1} ; \mathrm{Nm}^{3} \mathrm{C}^{-1}$$
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