calculate the wavelength of light in a vacuum that has a frequency of 5.45 x 10...

(a) Calculate the wavelength of light in vacuum that has a frequency of 5.14 ✕ 1018...

(a) Calculate the wavelength of light in vacuum that has a frequency of 5.14 ✕ 1018 Hz. nm (b) What is its wavelength in crown glass? nm (c) Calculate the energy of one photon of such light in vacuum. Express the answer in electron volts. eV (d) Does the energy of the photon change when it enters the crown glass? The energy of the photon does not change. The energy of the photon changes. Explain why?

Calculate the wavelength ? and the frequency ? of the photons that have an energy of...

Calculate the wavelength ? and the frequency ? of the photons that have an energy of ?photon=1.12×10−18 J. Use ?=3.00×108 m/s for the speed of light in a vacuum. ?= m ?= Hz Calculate the wavelength and the frequency of the photons that have an energy of ?photon=881 MeV. ?= m ?= Hz Calculate the wavelength and the frequency of the photons that have an energy of ?photon=4.87 keV. ?= m ?= Hz Calculate the wavelength and the frequency of...

Calculate the wavelength λ and the frequency f of the photons that have an energy of...

Calculate the wavelength λ and the frequency f of the photons that have an energy of E photon = 3.32 × 10 − 20 J. Use c = 3.00 × 10 8 m/s for the speed of light in a vacuum. λ = _____m f_________ = Hz Calculate the wavelength and the frequency of the photons that have an energy of E photon = 753 MeV. λ =_______ m f________ = Hz Calculate the wavelength and the frequency of the...

The speed of light in plastic is measured at 2.5 x 108m/s. Calculate: a- the index...

The speed of light in plastic is measured at 2.5 x 108m/s. Calculate: a- the index of refraction, b- the frequency of the light if the wavelength of this light in a vacuum is 635 nm c- The energy of a photon of this light

Red light at 4.74 x 10^14 Hz passes through a glass slab of index n =...

Red light at 4.74 x 10^14 Hz passes through a glass slab of index n = 1.5 and width 10 times the vacuum wavelength. How long does it take the light to pass through the glass in fs (femtoseconds)?

CAN YOU PLEASE ANSWER ALL QUESTIONS. 1). What is the wavelength range of visible light? 2)....

CAN YOU PLEASE ANSWER ALL QUESTIONS. 1). What is the wavelength range of visible light? 2). If a photon of light has a frequency of 5 x 1014 Hz, what is it’s wavelength in nanometers? 3). If a photon of light has a wavelength of 550 nm, what is it’s frequency in Hertz? 4). Using Planck’s Equations, calculate the energy of a photon of light with a wavelength of 650 nm? 5). What happens to the frequency and Photon Energy...

Light with a wavelength of 432 nm in vacuo travels from vacuum to water. Find the...

Light with a wavelength of 432 nm in vacuo travels from vacuum to water. Find the frequency and wavelength of the light inside the water.

1. we learn that _____ a. red light has a smaller wavelength and lower frequency than...

1. we learn that _____ a. red light has a smaller wavelength and lower frequency than blue light. b. red light has a longer wavelength and higher frequency than blue light. c. red light has a longer wavelength but the same frequency as blue light. d. red light has a longer wavelength and lower frequency than blue light. 2. we learn that ____ a. velocities of electromagnetic waves range from 10-16 m to 104 m/s. b. wavelengths of electromagnetic waves...

Light with wavelength 700 nm travels through a vacuum (n=1). It is normally incident upon a...

Light with wavelength 700 nm travels through a vacuum (n=1). It is normally incident upon a thin layer of oil (n=1.4), which rests upon a thick layer of glass (n=1.5). a)  What is the minimum thickness of oil needed to minimize the light reflected from the oil? b) What is the minimum thickness of oil needed to maximize the reflected light?

Light with wavelength 700 nm travels through a vacuum (n=1). It is normally incident upon a...

Light with wavelength 700 nm travels through a vacuum (n=1). It is normally incident upon a thin layer of water (n=1.33), which rests upon a thick layer of glass (n=1.5). a) What is the minimum thickness of water needed to minimize the light reflected from the water? b) What is the minimum thickness of water needed to maximize the reflected light?