For 532 nm visible light, calculate its frequency (v, Hz), wavenumber (ữ, cm-?), and photon energy (I). HZ cm-1 E= If a laser were produced at this frequency, what color of light would be observed? O yellow O blue O cyan O green ored
Exercise 2.2. Type the following code in your terminal. v <- factor(c("2", "3", "5", "7", "11")) a. Convert v to character with as.character. Explain what just happened. b. Convert v to numeric with as. numeric. Explain what just happened. c. How would you convert the values of v to integers?
Exercise 2.2. Type the following code in your terminal. v <- factor(c("2", "3", "5", "7", "11")) a. Convert v to character with as.character. Explain what just happened. b. Convert v to numeric with as. numeric. Explain what just happened. c. How would you convert the values of v to integers?
If the wall is 5 m from the source and the wavelength of the light is 650 nm, what is the distance between the slits? 32.500 nm 65,000 nm 130,000 nm 650 nm 2.600 nm Submit Request Answer You see this diffraction pattern on a wall. + 10 cm -> Part A What type of source created that pattern? A two-slit system A circular aperture A singe-slit system A diffraction grating
2. Calculate the frequency of a photon of green light with a wavelength of 550 nm V 3. A beam of light has a frequency of 6.29 x 104 Hz. What is the energy per photon of this light?
Green laser light with a wavelength of 650 nm travels towards a photodetector. a.How long does it take the laser to reach the photodetector located 50 meters away? b.What is the change in the arrival time of the light if a 1 meter block of lucite is placed along the path for the laser to travel through? (index of refraction = 1.50) c.What is the speed of light through the lucite? Next, take a second laser (red) with wavelength of...
2. Consider an electron in a 1D potential box (V(x) = 0 for 0<x<L, V(x) = co otherwise) of length L = 1 nm. The electron is described by the wave function, c) = Jasin ( (a) Using the appropriate Hamiltonian derive an expression for the kinetic energy of the electron (5 marks) (b) Calculate the energy (in Joules) of the transition between the ground state and the 1 excited state. [3 marks]
For 532 nm visible light, calculate its frequency (v, Hz), wavenumber (v, cm), and photon energy (J) Hz V = -1 cm E J If a laser were produced at this frequency, what color of light would be observed?
Balance the following equation: . V + HNO3 -----> V(NO3)3 + N2O + H2O
find the v(s) base on that given info and graph ASSIGNMENT I Q4 If a(s) S s-[0,2] s> 2m 4 a (ms 2) 2 s(m) find v(s) if v(s 0) 41