JEE Main 2024 (Online) 27th January Morning Shift | Electromagnetic Waves Question 22 | Physics

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JEE Main 2024 (Online) 27th January Morning Shift

MCQ (Single Correct Answer)

-1

A plane electromagnetic wave propagating in $$\mathrm{x}$$-direction is described by

$$E_y=\left(200 \mathrm{Vm}^{-1}\right) \sin \left[1.5 \times 10^7 t-0.05 x\right] \text {; }$$

The intensity of the wave is :

(Use $$\epsilon_0=8.85 \times 10^{-12} \mathrm{C}^2 \mathrm{~N}^{-1} \mathrm{~m}^{-2}$$)

$$35.4 \mathrm{~Wm}^{-2}$$

$$53.1 \mathrm{~Wm}^{-2}$$

$$26.6 \mathrm{~Wm}^{-2}$$

$$106.2 \mathrm{~Wm}^{-2}$$

JEE Main 2023 (Online) 15th April Morning Shift

MCQ (Single Correct Answer)

-1

Match List I with List II of Electromagnetic waves with corresponding wavelength range :

List I	List II
(A) Microwave	(I) $400 \mathrm{~nm}$ to $1 \mathrm{~nm}$
(B) Ultraviolet	(II) $1 \mathrm{~nm}$ to $10^{-3} \mathrm{~nm}$
(C) X-Ray	(III) $1 \mathrm{~mm}$ to $700 \mathrm{~nm}$
(D) Infra-red	(IV) $0.1 \mathrm{~m}$ to $1 \mathrm{~mm}$

Choose the correct answer from the options given below:

(A)-(I), (B)-(IV), (C)-(II), (D)-(III)

(A)-(IV), (B)-(I), (C)-(II), (D)-(III)

(A)-(IV), (B)-(I), (C)-(III), (D) -(II)

(A)-(IV), (B)-(II), (C)-(I), (D)-(III)

JEE Main 2023 (Online) 13th April Evening Shift

MCQ (Single Correct Answer)

-1

In an electromagnetic wave, at an instant and at particular position, the electric field is along the negative $$z$$-axis and magnetic field is along the positive $$x$$-axis. Then the direction of propagation of electromagnetic wave is:

at $$45^{\circ}$$ angle from positive y-axis

positive $$y$$-axis

negative $$\mathrm{y}$$-axis

positive z-axis

JEE Main 2023 (Online) 13th April Morning Shift

MCQ (Single Correct Answer)

-1

Which of the following Maxwell's equation is valid for time varying conditions but not valid for static conditions :

$$\oint \overrightarrow{\mathrm{E}} \cdot \overrightarrow{d l}=0$$

$$\oint \vec{B} \cdot \overrightarrow{d l}=\mu_{0} I$$

$$\oint \vec{E} \cdot \overrightarrow{d l}=-\frac{\partial \phi_{B}}{\partial t}$$

$$\oint \vec{D} \cdot \overrightarrow{d A}=Q$$

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