WAVE OPTICS QUIZ 14

 

  Way Optics Quiz-14

Dear Readers,

As per analysis for previous years, it has been observed that students preparing for NEET find Physics out of all the sections to be complex to handle and the majority of them are not able to comprehend the reason behind it. This problem arises especially because these aspirants appearing for the examination are more inclined to have a keen interest in Biology due to their medical background. Furthermore, sections such as Physics are dominantly based on theories, laws, numerical in comparison to a section of Biology which is more of fact-based, life sciences, and includes substantial explanations. By using the table given below, you easily and directly access to the topics and respective links of MCQs. Moreover, to make learning smooth and efficient, all the questions come with their supportive solutions to make utilization of time even more productive. Students will be covered for all their studies as the topics are available from basics to even the most advanced. .

Q1.  A beam of plane polarized light falls normally on a polarizer of cross sectional area 3 × 10^-4𝑚². Flux of energy of incident ray in 10^-3𝑊. The polarizer rotates with an angular frequency of 31.4 𝑟𝑎𝑑/𝑠. The energy of light passing through the polarizer per revolution will be

•   10^-4𝐽𝑜𝑢𝑙𝑒
•   10^-3𝐽𝑜𝑢𝑙𝑒
•   10^-2𝐽𝑜𝑢𝑙𝑒
•   10^-1𝐽𝑜𝑢𝑙𝑒

Solution
Using Malus law, 𝐼 = 𝐼_o cos² 𝜃 

As here polarizer is rotating, 𝑖.𝑒., all the values of 𝜃 are possible 

 𝐼_𝑎𝑣 = 1/2𝜋 ∫^2𝜋_o𝐼 𝑑𝜃 = 1/2𝜋 ∫^2𝜋_o 𝐼_o cos2 𝜃 𝑑𝜃 

 On integration we get 𝐼_av = 𝐼_o/2 

 Where 𝐼_o = Energy /Area×Time = 𝑝/𝐴 = 10^-3 /3×10^-4 = 10 /3 𝑊𝑎𝑡𝑡 /𝑚² 

 ∴ 𝐼_av = 1/2 × 10/3 = 5/3 𝑊𝑎𝑡𝑡 and Time period 𝑇 = 2𝜋/𝜔 = 2×3.14 /31.4 = 1/5𝑠 

∴ Energy of light passing through the polarizer per revolution = 𝐼_av × Area × 𝑇 = 5/3 × 3 × 10^-4 × 1/5 = 10^-4𝐽

Q2. In a wave, the path difference corresponding to a phase difference of 𝜙 is

•   𝜋/2𝜆 𝜙
•   𝜋 /𝜆 𝜙
•   𝜆/2𝜋 𝜙
•   𝜆/ 𝜋 𝜙

Solution
For 2𝜋 phase difference → Path difference is 𝜆 ∴ For 𝜙 phase difference → Path difference is 𝜆 2𝜋 × 𝜙

Q3.   Which one of the following property of light does not support wave theory of light?

•   Light obeys laws of reflection and refraction
•   Light waves get polarized
•   Light shows photoelectric effect
•   Light shows interference

Solution
Photoelectric effect does not support the wave theory of light

Q4.  Light waves travel in vacuum along the 𝑦– axis. Which of the following may represent the wavefront?

•   𝑦 = constant
•   𝑥 = constant
•   z = constant
•   x+y+z= constant

Solution
As velocity of light is perpendicular to the wavefront, and light is travelling in vacuum along the𝑦 − axis, therefore, the wavefront is represented by𝑦 = constant.

Q5. In the given arrangement, 𝑆1 and 𝑆2 are coherent sources (shown in figure). The point P is a point of 

 

•   Bright fringe
•   Dark fringe
•   Either dark or light
•   None of the above

Solution
  Bright fringe .

Q6.  A wavefront presents one, two and three HPZ at points 𝐴,𝐵 and 𝐶 respectively. If the ratio of consecutive amplitudes of HPZ is 4 : 3, then the ratio of resultant intensities at these point will be

•   169 : 16 : 256
•   256 : 16 : 169
• 256 : 16 : 196
•   256 : 196 : 16

Solution
𝐼_A = 𝑅₁² 

𝐼_B = (𝑅₁ − 𝑅₂)² = 𝑅₁² (1 − 𝑅₂/ 𝑅₁)² = 𝑅₁² (1 − 3/4 )² 

 = 𝑅₁²/16

 𝐼_C = (𝑅₁ − 𝑅₂ + 𝑅₃)² = 𝑅₁² (1 − 𝑅₂/ 𝑅₁ + 𝑅₃/ 𝑅₁ )² 

 = 𝑅₁² (1 − 𝑅₂ /𝑅₁ + 𝑅₃ /𝑅₂ × 𝑅₂ / 𝑅₁)² = 𝑅₁² (1 − 3/4 + 3/4 × 3/4 )² 

 = ( 13/16 )² 𝑅₁² = 169/256 𝑅₁² 

∴ 𝐼_A:𝐼_B:𝐼_C = 𝑅₁²: 𝑅₁²/ 16 : 169/256 𝑅₁² = 256:16:169

Q7. Irreducible phase difference in any wave of 5000 Å from a source of light is

•   𝜋
•   12𝜋
•   12𝜋 × 10⁶
•   𝜋 × 10⁶

Solution   𝜋

Q8. In Young’s double slit experiment, the slits are 3 mm apart. The wavelength of light used is 5000 Å and the distance between the slits and the screen is 90 cm. The fringe width in 9 (mm) is

•   1.5
• 0.015
•   2.0
•   0.15

Solution
Let 𝜆 be wavelength of monochromatic light, used to illuminate the slit S, and d be the distance between coherent sources, then width of slits is given by 

 𝑊 = 𝐷𝜆/𝑑 

 When D is distance between screen and source. 

                        

 Given, 𝑑 = 3 mm,𝜆 = 5000 Å = 5 × 10^-7 m = 5 ×10^-4 mm 𝐷 = 90 cm = 900 mm ∴ 𝑊 =(5 × 10^-4 × 900)/3 = 15 × 10^-2 mm = 0.15 mm

Q9.. The figure here gives the electric field of an EM wave at a certain point and a certain instant. The wave is transporting energy in the negative 𝑧 direction. What is the direction of the magnetic field of the wave at that point and instant

•   Towards + 𝑋 direction
•   Towards −𝑋 direction
•   Towards + 𝑍 direction
•   Towards −𝑍 direction

Solution
The direction of EM wave is given by the direction of 𝐸 ⃗ × 𝐵 ⃗

Q10.  Two polaroids are kept crossed to each other. Now one of them us rotated through an angle of 45°. The percentage of incident light now transmitted through the system is

•   15%
•   25%
•  50%
• 60%

Solution
If 𝐼0 is intensity of unpolarized light, then intensity of polarized light from 1st Polaroid=𝐼_o/ 2. 

 On rotating through 45°, intensity of light from 2nd Polaroid, 

𝐼 = (𝐼_o /2)(cos45°)² = 𝐼₀/ 2 ( 1/ √2 )² = 𝐼_o/ 4

 = 25% 𝐼_o