White light containing wavelengths from 410 nm to 750 nm falls on a grating with 7500 slits/cm. How wide is the first-order spectrum on a screen 3.90 m away?
White light containing wavelengths from 410 nm to 750 nm falls on a grating with 7500...
White light containing wavelengths from 400 nm to 750 nm falls on a grating with 7500 lines/cm. How wide is the first-order spectrum on a screen 2.20 m away? ___m
White light containing wavelengths from 4.10E2 nm to7.50E2 nm falls on a grating with 9.2E3 lines/cm. How wide is thefirst-order spectrum on a screen 2.50 m away?
White light containing wavelengths from 4.10E2 nm to7.50E2 nm falls on a grating with 7.8E3 lines/cm. How wide is thefirst-order spectrum on a screen 2.70 m away? Enter scientific notation as 1.23E4.
diagram please! 10. White light containing wavelengths from 400 nm to 750 nm strikes a grating containing 6,500 lines/cm. When viewed on a screen 1.5 m away, what is the distance along the screen between the second order maxima for the light at the red end of the spectrum and the third F. Chapter 26 the central maximum? Provide a rough sketch of the situation. (Diagram 3 pts.)
Two of the lines of the atomic hydrogen spectrum have wavelengths of 656?nm and 410?nm. If these fall at normal incidence on a grating with 8200 slits/cm,what will be the angular separation of the two wavelengths in the first-order spectrum?
4oonin Problem #3. A light of wave length 400. Nm falls on a DIFFRACTION GRATING having 7500 line /cm. A scree 2.3 m away from the diffraction grating is placed and the interference pattern was observed. A. How high up from the central; line is the first bright (maximum spot)? B. What is the MAXIMUM ORDER can be seen in this case? Screen 2.3m
4oonn Problem #3. A light of wave length 400 Nm falls on a DIFFRACTION GRATING having 7500 line /cm. A scree 2.3 m away from the diffraction grating is placed and the interference pattern was observed. A. How high up from the central; line is the first bright (maximum spot)? B. What is the MAXIMUM ORDER can be seen in this case? Screen 2.3m
1-A parallel beam of light from a laser with a wavelength 450 nm, falls on a grating whose slits are 1.28 x 10-4 cm apart. How far (in cm) is the 1st order bright spot from the center of the pattern on a screen 3.4 m away? 2-A grating whose slits are 3.2x10-4 cm apart produces a third-order fringe at a 25.0° angle. What is the wavelength of light that is used?
Question 14 (10 points): Sodium light with wavelengths 588.99 nm and 589.59 nm is incident on a grating with 5500 lines per cm. A screen is placed 3.0 m above the grating. What is the distance between the two spectral lines in the first-order spectrum (Ay_1) and second order spectrum (Ay_2) on the screen? Question 14 (10 points): Sodium light with wavelengths 588.99 nm and 589.59 nm is incident on a grating with 5500 lines per cm. A screen is...
White light (400 nm - 700 nm) diffraction pattern lights up a screen that is 3.60 m away. The diffraction grating has 503 slits per mm, which produces a rainbow of diffracted light. What is the width of the first order rainbow on the screen?