Explain the behavior of the electron when the different wavelengths of the light sources are used.

When illuminating two light wavelengths λ1 = 3200Å and λ2 = 5200Å on a metal used...

When illuminating two light wavelengths λ1 = 3200Å and λ2 = 5200Å on a metal used cathode of a photovoltaic cell, it is found that the ratio of the maximum initial velocity of the photoelectrons equal to 2. Find the work of that metal. Indicate: Planck's constant, h = 6,625.10-34J.s; electric charge electron, e = -1,6.10-19C; the speed of light c = 3,108m / s. A. 1.89 eV. B. 1.90 eV. C. 1.92 eV. D. 1.98 eV.

Find all the wavelengths of visible light emitted when Hydrogen is heated. Approximate visible light to...

Find all the wavelengths of visible light emitted when Hydrogen is heated. Approximate visible light to have the range from 400 nm to 700 nm. No points for only telling the wavelengths. Points will be for showing how you found these wavelengths (mention the transitions).

Optical disk drives in Sony PS2 contain a laser that produced two different wavelengths of light...

Optical disk drives in Sony PS2 contain a laser that produced two different wavelengths of light (650.0 and 780.0 nm). What is the energy in kJ/mol at the shorter of these two wavelengths?

Light consisting of a mixture of two different wavelengths falls on a two-slit interference apparatus. The...

Light consisting of a mixture of two different wavelengths falls on a two-slit interference apparatus. The centers of the slits are 0.100 mm apart. After passing through the slits, the light falls on a screen 5.00 m from the slits. For each of the two colors, the middle of the bright spot nearest to the central bright spot is at the following distance from the middle of the central bright spot: 2.4 cm; 3.3 cm. (a) Calculate the two wavelengths....

which of the following light sources are used to generate light pulses in a fiber optic...

which of the following light sources are used to generate light pulses in a fiber optic cable? lasers only lasers and LED's LED's only refracted natural light sources.

consider a metallic surface in vacuum that is being illuminated with light of different wavelengths. if...

consider a metallic surface in vacuum that is being illuminated with light of different wavelengths. if the metal is illuminated with light of 360 nm wavelength, electrons can overcome a (reverse) stopping potential of 1.14V. a. what is the work function of the metal? b. if the light wavelength is set to 500nm what will the stopping potential be? c. how large is the photocurrent density if the metal is illuminated with light of 600nm wavelength at a light intensity...

In analysis by atomic absorption spectroscopy, the wavelengths of light being absorbed reveal the identity of...

In analysis by atomic absorption spectroscopy, the wavelengths of light being absorbed reveal the identity of the elements present in the sample. What information is used to determine the relative amounts of the different elements.

Two light sources are used in a photoelectric experiment to determine the work function for a...

Two light sources are used in a photoelectric experiment to determine the work function for a particular metal surface. When green light from a mercury lamp (λ = 546.1 nm) is used, a stopping potential of 0.954 V reduces the photocurrent to zero. (a) Based on this measurement, what is the work function for this metal? eV (b) What stopping potential would be observed when using light from a red lamp (λ = 628.0 nm)? V

In many transparent materials, dispersion causes different colors (wavelengths) of light to travel at different speeds....

In many transparent materials, dispersion causes different colors (wavelengths) of light to travel at different speeds. This can cause problems in fiber-optic communications systems where pulses of light must travel very long distances in glass. Assuming a fiber is made of silicate crown glass (see figure below), calculate the difference in travel times that two short pulses of light take to travel 11.0 km in the fiber if the first pulse has a wavelength of 700 nm and the second...

Spectroscope: Observe the spectra of different light sources such as light bulb, sun, torch from your...

Spectroscope: Observe the spectra of different light sources such as light bulb, sun, torch from your phone, compare them with each other. What are the differences? What do they result from? Are there differences in colors?