Question

Red and blue light are simultaneously passed through a diffraction grating. The first-order maxima for the red light is located 20 cm from middle of the central bright fringe.

Where is the first-order maxima for the blue light located?a) Also at 20 cm from the middle of the central bright fringe.b) Greater than 20 cm from the middle of the central bright fringe.c) Less than 20 cm from the middle of the central bright fringe.

Answer 1

c) True. Less than 20 cm from the middle of the central bright fringe.

Step-by-step explanation:

The diffraction pattern of a grid is given by the expression

d sin θ = m λ

Where d is the separation between the slits, λ the wavelength and m the order of spectrum diffraction

Let's apply this equation to our case

Red light.

Its wavelength is in the 700 nm range

λ₁ = 700 10⁻⁹ m

sin θ₁ = (m / d) lam1

For the first diffraction order m = 1

sin θ₁ = (1 / d) 7 10⁻⁷

Blue light

Length wave range 450 nm

Lam2 = 450 10⁻⁹ m

sin θ₂ = (1 / d) lam₂

sin θ₂ = (1 / d) 4.5 10⁻⁷

Let's divide these two relationships

sin θ₂ / sin θ₁ = 4.5 10⁻⁷ / 7 10⁻⁷

sin θ₂ / sin θ₁ = 4.5 / 7

sin θ₂ = 0.64 sin θ₁

In diffraction measurements the distance to the screen in general is much greater than the separation of the spectral lines, so the hypotenuse will be considered constant

sin θ = Y / h

sin θ₂ = 0.64 sin θ₁

y₂ / h = 0.64 y₁ / h

y₂ = 0.64 y₁

y₂ = 0.64 20

y₂ = 12.8 cm

let's review the claims

a) False

b) False

c) True