To understand polarization of light and how to use Malus's law to calculate the intensity of...
To understand polarization of light and how to use Malus's law to calculate the intensity of a beam of light after passing through one or more polarizing filters.
The two transverse waves shown in the figure(Figure 1) both travel in the +z direction. The waves differ in that the top wave oscillates horizontally and the bottom wave oscillates vertically. The direction of oscillation of a wave is called the polarization of the wave. The upper wave is described as polarized in the +x direction whereas the lower wave is polarized in the +y direction. In general, waves can be polarized along any direction.
Recall that electromagnetic waves, such as visible light, microwaves, and X rays, consist of oscillating electric and magnetic fields. The polarization of an electromagnetic wave refers to the oscillation direction of the electric field, not the magnetic field. In this problem all figures depicting light waves illustrate only the electric field.
A linear polarizing filter, often just called a polarizer, is a device that only transmits light polarized along a specific transmission axis direction. The amount of light that passes through a filter is quantified in terms of its intensity. If the polarization angle of the incident light matches the transmission axis of the polarizer, 100% of the light will pass through, so the transmitted intensity will equal the incident intensity. More generally, the intensity of light emerging from a polarizer is described by Malus's law:
I=I0cos2θ,
where I0 is the intensity of the polarized light beam just before entering the polarizer, I is the intensity of the transmitted light beam immediately after passing through the polarizer, and θ is the angular difference between the polarization angle of the incident beam and the transmission axis of the polarizer. After passing through the polarizer, the transmitted light is polarized in the direction of the transmission axis of the polarizing filter.
PART E
A beam of unpolarized light with intensity I0 falls first upon a polarizer with transmission axis θTA,1 then upon a second polarizer with transmission axis θTA,2, where θTA,2−θTA,1=90degrees (in other words the two axes are perpendicular to one another). What is the intensity I2 of the light beam emerging from the second polarizer? (Figure 4)
Express your answer as a decimal number times the symbol I0. For example, if I2=(1/4)I0, enter 0.25 * I_0.
Homework Answers
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To understand polarization of light and how to use Malus's law
to calculate the intensity of...
law: I = I0 cos²θ where I0 is the intensity of the polarized light beam just before entering the polarizer
law: I = I0 cos²θ where I0 is the intensity of the polarized light beam just before entering the polarizer, I is the intensity of the transmitted light beam immediately after passing through the polarizer, and is the angular difference between the polarization angle of the incident beam and the transmission axis of the polarizer. After passing through the polarizer, the transmitted light is polarized in the direction of the transmission axis of the polarizing filter. Part DOne way to produce a beam of polarized...
GOAL Understand how polarizing materials affect light intensity. Unpolarized light is incident upon three polarizers. The...
GOAL Understand how polarizing materials affect light intensity. Unpolarized light is incident upon three polarizers. The first polarizer has a vertical transmission axis, the second has a transmission axis rotated 30.0 degree with respect to the first, and the third has a transmission axis rotated 75.0 degree relative to the first. If the initial light intensity of the beam is I_b, calculate the light intensity after the beam passes through the second polarizer and the third polarizer. After the beam...
In the questions that follow, assume that all angles are measured counterclockwise from the +x axis...
In the questions that follow, assume that all angles are measured counterclockwise from the +x axis in the direction of the +y axis. Part A A beam of polarized light with intensity I0 and polarization angle θ0 strikes a polarizer with transmission axis θTA. What angle θ should be used in Malus's law to calculate the transmitted intensity I1? This process is illustrated in the figure (Figure 2) , where the polarization of the light wave is visually illustrated by...
A vertically polarized beam of light with an intensity lo is incident on a polarizing filter....
A vertically polarized beam of light with an intensity lo is incident on a polarizing filter. The transmission axis of the filter is initially vertical, as shown in the figure. polarizing filter with transmission axis vertical, originally vertically polarized incident beam Keeping the polarizing filter perpendicular to the direction of the incident light at all times, the polarizing filter is rotated a full rotation (360°). Graph 2 Graph 1 A + + + t t 180° 360° o 180° 360°...
(Ch 35 HW Polarization of Light and Malus's Law Previous Answers Constant, I Penod. Table Correct...
(Ch 35 HW Polarization of Light and Malus's Law Previous Answers Constant, I Penod. Table Correct Learning Goal: To understand polarization of light and how to use Malus's law to calculate the intensity of a beam of light ater passing through one or mone polarizing iters Part C The two transverse waves shown in the figure(Figure 1) both travel in the -z direction The waves ditfer in thai the top wave oscilates horizontaly and the botom wave oscliabes vertically ?...
8. A polarized light that has an intensity I0 = 62.0 W/m² is incident on three...
8. A polarized light that has an intensity I0 = 62.0 W/m² is incident on three polarizing disks whose planes are parallel and centered on a common axis. Suppose that the transmission axis of the first polarizer is rotated 14° relative to the axis of polarization of the incident light, and that the transmission axis of each additional analyzer is rotated 14° relative to the transmission axis of the previous one. Calculate the transmitted intensity through all polarizers. _________ W/m2
question 7 and 8 Purpose To examine the properties of polarized light and the mathematical relationship...
question 7 and 8
Purpose To examine the properties of polarized light and the mathematical relationship describing the intensity of linearly polarized light (Malus'law). In addition, the lab will investigate different ways light can be polarized Overview This lab is the first of three labs exploring the properties of electromagnetic waves. Electromagnetic waves are composed of oscillating electric and magnetic fields. As discussed in the lecture the electric and magnetic field vectors are mutually perpendicular to each other. Light waves...
A linearly polarized beam of light of intensityI0 is propagating in the +z direction and its...
A linearly polarized beam of light of intensityI0 is propagating
in the +z direction and its direction of polarization makes an
angle of 74° with the x-axis (the angle between the initial
direction of polarization and the transmission axis of the first
polarizer is 16° as described below). Two linear polarizing sheets
are lined up perpendicular to the beam. The first sheet has its
transmission axis at an angle q 1 = 90° with respect to thex-axis.
The transmission axis...
When a beam of light passes through a pair of polarizing filters (polarizer and analyzer), the...
When a beam of light passes through a pair of polarizing filters (polarizer and analyzer), the intensity of the transmitted light is a maximum when the transmission axes of the polarizer and analyzer are parallel to each other (θ = 0° or θ= 180°) and zero when the axes are perpendicular to each other (θ = 90°). For any value of theta between 0° and 90° the transmitted intensity is given by I = Ii cos2(θ) where Ii is the...
A beam of polarized light has an average intensity of 15 W/m2 and is sent through...
A beam of polarized light has an average intensity of 15 W/m2 and is sent through a polarizer. The transmission axis makes an angle of 34° with respect to the direction of polarization. Determine the rms value of the electric field of the transmitted beam.
GOAL Understand how polarizing materials affect light intensity. Unpolarized light is incident upon three polarizers. The first polarizer has a vertical transmission axis, the second has a transmission axis rotated 30.0 degree with respect to the first, and the third has a transmission axis rotated 75.0 degree relative to the first. If the initial light intensity of the beam is I_b, calculate the light intensity after the beam passes through the second polarizer and the third polarizer. After the beam...
A vertically polarized beam of light with an intensity lo is incident on a polarizing filter. The transmission axis of the filter is initially vertical, as shown in the figure. polarizing filter with transmission axis vertical, originally vertically polarized incident beam Keeping the polarizing filter perpendicular to the direction of the incident light at all times, the polarizing filter is rotated a full rotation (360°). Graph 2 Graph 1 A + + + t t 180° 360° o 180° 360°...
(Ch 35 HW Polarization of Light and Malus's Law Previous Answers Constant, I Penod. Table Correct Learning Goal: To understand polarization of light and how to use Malus's law to calculate the intensity of a beam of light ater passing through one or mone polarizing iters Part C The two transverse waves shown in the figure(Figure 1) both travel in the -z direction The waves ditfer in thai the top wave oscilates horizontaly and the botom wave oscliabes vertically ?...
question 7 and 8
Purpose To examine the properties of polarized light and the mathematical relationship describing the intensity of linearly polarized light (Malus'law). In addition, the lab will investigate different ways light can be polarized Overview This lab is the first of three labs exploring the properties of electromagnetic waves. Electromagnetic waves are composed of oscillating electric and magnetic fields. As discussed in the lecture the electric and magnetic field vectors are mutually perpendicular to each other. Light waves...
A linearly polarized beam of light of intensityI0 is propagating
in the +z direction and its direction of polarization makes an
angle of 74° with the x-axis (the angle between the initial
direction of polarization and the transmission axis of the first
polarizer is 16° as described below). Two linear polarizing sheets
are lined up perpendicular to the beam. The first sheet has its
transmission axis at an angle q 1 = 90° with respect to thex-axis.
The transmission axis...
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