Part A At what angle will 480-am light produce a second-order maximum whenfalling on a grating...
At what angle will 470-nm light produce a second-order maximum when falling on a grating whose slits are 1.55x103 cm apart? Express your answer using three significant figures. Submit Previous Answers Request Answer
Part A At what angle will 530-nm light produce a second-order maximum when falling on a grating whose slits are 1.25x10-3 cm apart? Express your answer using three significant figures. Submit Request Answer
A) At what angle will 642 nm light produce a first-order maximum when falling on a grating whose slits are 1.8 × 10-3 cm apart? B)At what angle will 513 nm light produce a second-order maximum when falling on a grating whose slits are 1.19 × 10-3 cm apart? C) A grating that has 3,904 slits per cm produces a third-order fringe at a 21.7° angle. What wavelength of light is being used in nm?
KHW 12:24.1-7, 25.2 Problem 24.02 Constants Part A The third-order bright fringe of 630 nm light is observed at an angle of 27 when the light falls on two narrow slits. How far apart are the slits? Express your answer to two significant figures and include the appropriate units IA dValue Submit Previous Answers Request Answer X Incorrect; Try Again; One attempt remaining
Monochromatic light strikes a diffraction grating at normal incidence before illuminating a screen 2.50 m away. Part A If the first-order maxima are separated by 1.53 m on the screen, what is the distance between the two second-order maxima? Express your answer to three significant figures. ΑΣΦ ? y2 = 3.36 m Submit Previous Answers Request Answer X Incorrect; Try Again; 5 attempts remaining
At what angle will a blue light of wavelength 510-nm produce a 3rd order maximum when falling on a grating whose slits are 1.35*10^-5 m apart? How many slits per mm does this grating have? Draw a diagram indicating the center (zero order) and 1st order fringes. On the same diagram, indicate the location of the 1st order fringes if the incident wavelength corresponds to red light.
Item 12 Part A What is the wavelength of light that is deviated in the first order through an angle of 13.9° by a transmission grating having 5000 slits/cm? Assume normal incidence. λ= 4.80x10-7 m Ans Correct Part B What is the second-order deviation of this wavelength? Assume normal incidence. SubmitP Previous Answers Request X Incorrect; Try Again; 5 attempts remaining
What is the wavelength of light that is deviated in the first order through an angle of 14.3 ∘ by a transmission grating having 5000 slits/cm? Assume normal incidence. λ λ = nothing m SubmitPrevious AnswersRequest Answer Incorrect; Try Again; 4 attempts remaining Part B What is the second-order deviation of this wavelength? Assume normal incidence. θ θ = nothing ∘
Determine the angle 8 between cables AB and AC. Suppose that a-1.9 m and b-1.9 m. (Figure Express your answer using three significant figures. Previous Answers Request Answer Submit X Incorrect; Try Again; 5 attempts remaining Provide Feedback gure 1 of 1 0.75 m 1.5 m 3 Im Determine the angle 8 between cables AB and AC. Suppose that a-1.9 m and b-1.9 m. (Figure Express your answer using three significant figures. Previous Answers Request Answer Submit X Incorrect; Try...
The index of refraction for red light in a certain liquid is 1.321, the index of refraction for violet light in the same liquid is 1.332. Provide Part A to the normal Find the dispersion Oy -- O for red and violet light when both are incident on the flat surface of the liquid at an angle of 40.00 Express your answer using two significant figures. V AŁO O ? Ov -= Submit Previous Answers Request Answer X Incorrect; Try...