The wavelength of red light is measured to be 628 nm, in oil liquid of index...

What is the wavelength (in nm) of light having a frequency of 4.7 × 1013 Hz?...

What is the wavelength (in nm) of light having a frequency of 4.7 × 1013 Hz? What is the frequency (in Hz) of light having a wavelength of 6.87 × 102 nm? a) Wavelength of light × 10 nm (Enter your answer in scientific notation.) b) Frequency of light × 10 Hz (Enter your answer in scientific notation.)

A transparent oil with index of refraction n = 1.24 spills on the surface of certain...

A transparent oil with index of refraction n = 1.24 spills on the surface of certain crystal (with unknown index of refraction) with a thickness of 0.423 μm. Normally incident red light (wavelength 700 nm in air) produces a maximum of reflection. (a) What can you tell about the index of diffraction of the crystal? (b) Which wavelength in the visible spectrum (400 nm - 700 nm) would also give constructive interference? And destructive? (c) Which index of refraction should...

Red light with a wavelength of 725 nm enters glass with index of refraction 1.52. Located...

Red light with a wavelength of 725 nm enters glass with index of refraction 1.52. Located within the glass block is a single slit, and a screen is placed 1.25 m away. If the width of the slit is 18.5 µm, find the width of the central maximum a. in degrees and b. in centimeters.

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

A thin layer of transparent oil is placed on top of a transparent plate. The oil...

A thin layer of transparent oil is placed on top of a transparent plate. The oil film is then illuminated by white light shining onto the oil's surface, as shown in the figure above. To an observer standing right next to the light source and looking straight down on the oil film, the oil film appears green, corresponding to a wavelength of 528 nm in air. The oil has an index of refraction of 1.52. Part (A) What is the...

A monochromatic source produces light at a wavelength of 510 nm in air. The wave then...

A monochromatic source produces light at a wavelength of 510 nm in air. The wave then passes through water that has an index of refraction of 1.32. The frequency of the wave in the water is 7.76 x 10^14 Hz 4.45 x 10^14 Hz 5.88 x 10^14 Hz 4.54 x 10^14 Hz

Purple visible light has a wavelength of 380 nm and red visible light 750 nm in...

Purple visible light has a wavelength of 380 nm and red visible light 750 nm in the air. Both of these lights are visible to the eye which has a refractive index of 1.34. (a) Determine the wavelengths of the two lights when they hit the eyeball (b) The frequency of light when in the eyeball (c) The speed of light when in the eyeball

A pool of water is covered with a film of oil which is 256 nm thick....

A pool of water is covered with a film of oil which is 256 nm thick. For what wavelength of visible light (in air) will the reflected light constructively interfere? The index of refraction of the oil is 1.65. Visible light (in air) has wavelengths between 430 nm (blue) and 770 nm (red) in air. Assume that the incident light is normal to the surface of the oil.

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...

The index of refraction of the gasoline is 1.42 and of water is 1.33. At what...

The index of refraction of the gasoline is 1.42 and of water is 1.33. At what thickness of the oil, d, will light of wavelength λ=600 nm have the first interference maximum?