A pond with a total depth (ice + water) of 2.89 m is covered by a transparent layer of ice, with a thickness of 0.300 m. Calculate the time required for light to travel vertically from the surface of the ice to the bottom of the pond. *I mainly do not understand how to find "n" (the refractive index of ice ) for this problem.
A pond with a total depth (ice + water) of 2.89 m is covered by a...
A pond with a total depth (ice +water) of 2.80 m is covered by a transparent layer of ice, with a thickness of 0.318 m. Calculate the time required for light to travel vertically from the surface of the ice to the bottom of the pond
Can you please answer all questions completely. Refraction, Wave speed and Snell's Law i. A pond with a total depth (water ice) of 3.00 m is covered by a transparent layer of ice 0.32 m thick. Find the time required for light to travel vertically from the top ofthe ice to the bottom of the pond. ice- o 32,n Wate 3-0.32 2.68 m 2. A beam of light is incident on the interface between glass (nr 32) and water (nr...
A 1m thick glass window with a refractive index of n=1.50 in the North Pole is covered by a 0.5m thick layer of transparent ice with a refractive index of n=1.31 on the outside. A security guard on the inside shines a flashlight at an angle of 30 degrees from the normal at the window. The n of air n=1.0003. Part #1: Make a drawing of the system. Include the path of the light inside the room from the flashlight...
1 A horizontal cylindrical tank 2.20 m in diameter is half full of water. The space above the water is filled with a pressurized gas of unknown refractive index. A small laser can move along the curved bottom of the water and aims a light beam toward the center of the water sur- face (Fig1). You observe that when the laser has moved a distance S = 1.09m or more (rneasured along the curved surface) from the low- est point...
A lake of area 200km^2 is covered by a slab of ice of unknown thickness. The temperature of air on the outside is 4^0 C and the temperature at the bottom of the lake is 20^0 C. Calculate the thickness of ice if the lake is 20 m water deep. Can you drive your pickup on this lake? K_ice = 2.18W/mK
Problem 8.41 A 2.0 kg rock is released from rest at the surface of a pond 1.8 m deep. As the rock falls, a constant upward force of 4.4 N is exerted on it by water resistance. Let y = 0 be at the bottom of the pond. ✓ Correo Part F Calculate the Express you U = Part Calculate the gravitational potential energy of the system, U, when the depth of the rock below the water's surface is 0.50...
QUESTION If the water is replaced by a transparent fluid with a higher index of refraction, the critical angle of the fluid- air boundary is: O smaller. o the same as for water. o larger PRACTICE IT Use the worked example above to help you solve this problem. (a) Find the critical angle for a water-air boundary if the index of refraction of water is 1.33. (b) Use the result of part (a) to predict what a fish will see...
Imagine a thin layer of water (n = 133) spread across a block of ice (-1.309). (a) If rays of light are directed downwards and reflect/refract with respect to the thin layer of water, determine the minimum water thickness that produces the least reflection at a wavelength of 550 nm. (b) Suppose a flashlight was turned on and frozen in the block of ice pointing upwards, determine the minimum water thickness that produces the most reflection at a wavelength of...
In winter a lake has a 0.30 m thick ice layer over 1.10 m of water. A light beam from above strikes a spot on the ice, making a 28 ∘ angle with the normal.How far horizontally from that spot does the light ray strike the lake bottom?
A fish is 53 ㎝ below the surface of a pond. What is the apparent depth (in cm) when viewed almost directly above the fish? (For water, n a. 50 b. 60 c. 40 d. 70 15. from a position 1.33.) e. 110 16. An object 60-cm high is placed 1.0 m in front of a converging lens whose focal length is 1.5 m. Determine the image height (in cm). a. 60 b. 120 C. 92 d. 180 e. 83...