A 4.6 cm -thick layer of oil is sandwiched between a 1.2 cm -thick sheet of glass and a 1.6 cm -thick sheet of polystyrene plastic.
How long (in ns) does it take light incident perpendicular to the glass to pass through this 7.4 cm -thick sandwich?
A 4.6 cm -thick layer of oil is sandwiched between a 1.2 cm -thick sheet of...
A 3.7 cm -thick layer of oil is sandwiched between a 1.2 cm -thick sheet of glass and a 2.7 cm -thick sheet of polystyrene plastic.How long (in ns) does it take light incident perpendicular to the glass to pass through this 7.6 cm -thick sandwich?
A 5.1-cm-thick layer of oil (n=1.46) is sandwiched between a 1.5-cm-thick sheet of glass and a 2.5-cm-thick sheet of polystyrene plastic (n=1.59). How long (in ns) does it take light incident perpendicular to the glass to pass through this 9.1-cm-thick sandwich? Express your answer in nanoseconds.
A 5.1-cm-thick layer of oil (n=1.46) is sandwiched between a 1.5-cm-thick sheet of glass and a 2.5-cm-thick sheet of polystyrene plastic (n=1.59). Part A How long (in ns) does it take light incident perpendicular to the glass to pass through this 9.1-cm-thick sandwich? Express your answer in nanoseconds.
A 7.5 cm-thick layer of oil (n=1.46) is sandwiched between a 2.8 cm-thick sheet of glass and a 4.2 cm-thick sheet of polystyrene plastic (n=1.59). How long (in ns) does it take light incident 42 degrees to the normal vector to the glass to pass through this 14.5 cm-thick sandwich?.... i need to know how to figure this problem out with the 42 Degrees to the normal vector, you did the first part but forgot the 42 degrees to normal...
A 1.8 cm thick layer of oil (n = 1.46) floats on top of 33 cm deep water (n = 1.33) in a rectangular bucket. When a laser beam is held at « = 37 degrees with respect to the surface of the water, its beam enters at the edge of the bucket and strikes the base of the bucket at its center. oil w a. Re-create the figure on your page and draw the path of the light as...
Problem: A 1.8 cm thick layer of oil (n = 1.46) floats on top of 33 cm deep water (n = 1.33) in a rectangular bucket. When a laser beam is held at $ = 37 degrees with respect to the surface of the water, its beam enters at the edge of the bucket and strikes the base of the bucket at its center. oil w a. Re-create the figure on your page and draw the path of the light...
Problem: A 1.8 cm thick layer of oil (n = 1.46) floats on top of 33 cm deep water (n = 1.33) in a rectangular bucket. When a laser beam is held at $ = 37 degrees with respect to the surface of the water, its beam enters at the edge of the bucket and strikes the base of the bucket at its center. oil w a. Re-create the figure on your page and draw the path of the light...
A ray of light traveling through air encounters a 1.8 cm -thick sheet of glass at a 37 ∘ angle of incidence. Assume n = 1.5. How far does the light ray travel inside the glass before emerging on the far side?
A ray of light travelling through air encounters a 1.1-cm-thick sheet of glass at a 43 ∘ angle of incidence. Assume n = 1.5. How far does the light ray travel inside the glass before emerging on the far side?
1) A laser beam enters a 12.0 cm thick glass window at an angle of 66.0° from the normal. The index of refraction of the glass is 1.42. At what angle from the normal does the beam travel through the glass? I know this one is 40.04 degrees. I am stuck on this one: 2) How long does it take the beam to pass through the plate?