How Do You Calculate the Third Maximum Position in Single Slit Diffraction?

alicia113 · Aug 27, 2012

A single slit is illuminated with a helium-neon laser whose wavelength is 633 nm. If the slit width is 2.2 x 10 e-5 m, calculate the position of the third maximum in degrees

2. Homework Equations

Sin Theta(m) = (m + 0.5) Lambda/w

3. The Attempt at a Solution

Sin Theta(3) = (3 + 0.5)(633 x 10 e-9)/2.2 x 10 e-5
=(3.5)(633 x 10 e-9)/2.2 x 10 e-5
=0.1

Theta(3) = sin-1(0.1)
=5.7 degrees

Therefore, the position of the third maximum is at 5.7 degrees

is this right?!

SammyS · Aug 27, 2012

alicia113 said:

A single slit is illuminated with a helium-neon laser whose wavelength is 633 nm. If the slit width is 2.2 x 10 e-5 m, calculate the position of the third maximum in degrees

2. Homework Equations

Sin Theta(m) = (m + 0.5) Lambda/w

3. The Attempt at a Solution

Sin Theta(3) = (3 + 0.5)(633 x 10 e-9)/2.2 x 10 e-5
=(3.5)(633 x 10 e-9)/2.2 x 10 e-5
=0.1

Theta(3) = sin-1(0.1)
=5.7 degrees

Therefore, the position of the third maximum is at 5.7 degrees

is this right?!

That looks good to me.

How Do You Calculate the Third Maximum Position in Single Slit Diffraction?

Related to How Do You Calculate the Third Maximum Position in Single Slit Diffraction?

1. What is a neon laser?

2. How does a neon laser work?

3. What is the difference between a neon laser and other types of lasers?

4. What are some real-world applications of neon lasers?

5. Are neon lasers dangerous?

Similar threads

Hot Threads

Recent Insights