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Grade 12Wave Optics

An object placed at a distance 10 cm from thin prism of angle 50 . Find the position of the image

1) Π/8

2) Π/12

3) 5Π/12

4) None of these

Profile image of Mayank Bhardwaj
16 Years agoGrade 12
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1 Answer

Profile image of Askiitians Tutor Team
ApprovedApproved Tutor Answer0 Years ago

To find the position of the image formed by a thin prism, we can use the formula for the angle of deviation and the geometry of the situation. The angle of deviation (D) for a thin prism can be approximated using the formula:

Understanding the Prism Formula

The deviation angle (D) can be calculated using the formula:

D = (n - 1) * A

Where:

  • n = refractive index of the prism material
  • A = angle of the prism

Given Values

In this case, we have:

  • Angle of the prism (A) = 5 degrees
  • Distance of the object from the prism = 10 cm

Calculating the Deviation

To proceed, we need to know the refractive index (n) of the prism material. For many common prisms, such as glass, the refractive index is typically around 1.5. Using this value, we can calculate the deviation:

D = (1.5 - 1) * 5 = 0.5 * 5 = 2.5 degrees

Finding the Image Position

The position of the image can be determined using the geometry of the prism. The formula for the position of the image (I) in relation to the object distance (u) and the angle of deviation (D) is given by:

I = u * tan(D)

First, we need to convert the angle of deviation from degrees to radians, since the options provided are in radians:

D (in radians) = 2.5 degrees * (π/180) = 0.04363 radians

Now, substituting the values into the image position formula:

I = 10 cm * tan(0.04363)

Using a calculator, we find:

tan(0.04363) ≈ 0.04365

Thus:

I ≈ 10 cm * 0.04365 ≈ 0.4365 cm

Evaluating the Options

Now, let’s compare this result with the options provided:

  • Π/8 ≈ 0.3927
  • Π/12 ≈ 0.2618
  • 5Π/12 ≈ 1.3089
  • None of these

Since 0.4365 cm does not match any of the given options, the correct answer is:

None of these

Summary

In summary, by applying the principles of optics and the properties of a thin prism, we calculated the position of the image formed by the prism when an object is placed 10 cm away. The deviation angle was calculated, and subsequently, the position of the image was determined, leading us to conclude that the answer is "None of these." This exercise illustrates the practical application of geometric optics in understanding how light interacts with prisms.