A Lens in a Liquid. A lens obeys Snell’s law, bending light rays at each surface an amount...
A Lens in a Liquid. A lens obeys Snell’s law, bending light rays at each surface an amount determined by the index of refraction of the lens and the index of the medium in which the lens is located. (a) Equation (34.19) assumes that the lens is surrounded by air. Consider instead a thin lens immersed in a liquid with refractive index nliq. Prove that the focal length f’ is then given by Eq (34.19) with n replaced by n/nliq. (b) A thin lens with index n has focal length f in vacuum. Use the result of part (a) to show that when this lens is immersed in a liquid of index nliq, it will have a new focal length given by
Step-by-Step Solution
Request Solution!
We need at least 10 more requests to produce the solution.
0 / 10 have requested this problem solution
The more requests, the faster the answer.
Most questions answered within 3 hours.
-
Calculating the space time for parallel reactions. m-Xylene is reacted over a ZSM-5 zeolit...
-
Determine Vo and ID for the networks of Fig. 2.160.FIG. 2.160
-
The truck travels along a circular road that has a radius of 50 m at a speed of 4 m/s. F...
-
A state legislature enacted a statute that required any motorcycle operator or passenger...
-
A 1024 × 1024 8-bit image with 5.3 bits/pixel entropy [computed from its histogram using E...
-
In Problem 3.3, we estimated the equationwhere we now report standard errors along with th...
-
In each of the following cases, deduce the nature of the light that is consistent with the...
-
Solve Example 20.5 such that the x, y, z axes move with curvilinear translation, Ω = 0 in...
-
In Fig. 6.43, if i = cos 4t and v = sin 4t, the element is:(a)a resistor(b) a capacitor(c)...
-
Sketch vo for each network of Fig. 2.181 for the input shown.FIG. 2.181
-
(Supplement B) Computing and Reporting Cash Flow Effectsof Sale of Plant and EquipmentDuri...
-
A 350-mL spherical flask contains 0.075 mol of an ideal gas at a temperature of 293 K. Wha...