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Problem 1(10 points) Radiant energy at a wavelength of 2.0 μm is traveling through a vacuum. It then enters a medium with a refractive index of 1.24. (a) Find the following quantities for the radiati...
When a light wave enters into a medium of different refractive index, A- only its speed...
When a light wave enters into a medium of different refractive index, A- only its speed and wavelength change. B- only its speed and frequency change. C- only its frequency and wavelength change. D- its speed, frequency, and wavelength change
(a) Briefly explain what is meant by the following terms: refraction, refractive index, angle of incidence,...
(a) Briefly explain what is meant by the following terms: refraction, refractive index, angle of incidence, angle of refraction. [4 marks] (b) The drawing shows four different situations in which a light ray is traveling from one medium into another. In some of the cases, the refraction is not shown correctly. For cases (i), (ii), and (iii), the angle of incidence is 55°; for case (iv), the angle of incidence is 0°. Identify which cases are incorrectly drawn and determine...
Find wavelength. Find Frequency. A sinusoidal electromagnetic wave in vacuum has magnetic-field amplitude 4.30 x 10-3...
Find wavelength.
Find Frequency.
A sinusoidal electromagnetic wave in vacuum has magnetic-field amplitude 4.30 x 10-3 T and wave number 2.50 x 10Ⓡ rad/m. At a certain position and time the electric field points in the -y-direction and the magnetic field B points in the +1-direction. Find the amplitude of Ē.
1. The electric field of an electromagnetic wave traveling through vacuum is the following: 5.90x1 :...
1. The electric field of an electromagnetic wave traveling through vacuum is the following: 5.90x1 : + a. Draw a qualitative sketch of this E function for t = 0. Add the B field as well to complete the EM wave. Be sure to label the axes. Don't worry about your drawing ability. b. What is the magnitude of the magnetic field B.? C. What is the wavelength of the EM wave? d. What is the frequency of the EM...
the speed of light in a vacuum is about 12. Which of the following relationships is...
the
speed of light in a vacuum is about
12. Which of the following relationships is (are) correct? All of these are correct 13. The angle of called the critical angle. at which all light striking a surface is totally internally reflected is largest, incidence / smallest, incidence / largest, refraction / smallest, refraction 14. Which of the following statements is INCORRECT about the following illustration? Normal Line Medium 1 Incident Ray] Surface a. Medium 1 is denser than medium...
5. Silicon crystals are transparent to a limited range of frequencies of light, with an index...
5. Silicon crystals are transparent to a limited range of frequencies of light, with an index of refraction of 3.4. A light wave traveling through air (n = 1.00) has a frequency of 130 THz. In either order, find the following: a. Find the speed of this light in silicon: A. 8.8 x 10' m/s B. 1.2 x 108 m/s C. 1.5 x 108 m/s D. 1.8 * 108 m/s E. 2.0 x 108 m/s b. Find the wavelength of...
1) Two parallel beams of light are brought together on a surface. Each beam has wave length h-500...
1) Two parallel beams of light are brought together on a surface. Each beam has wave length h-500 nm and intensity 1 W/m at the surface. What is the resultant intensity for each of the following path lengths or phase differences between the beams? Phase or path length difference Intensity (W/m) 0 radians (phase) T/2 radians (phase) 60 degrees (phase) 3π radians (phase) 300 nm (path length) 1000 nm (path length) 5.5 λ (path length) 2) A wave of wavelength...
1. The "wavelength" of a wave describes a. the speed of its crests b. the distance...
1. The "wavelength" of a wave describes a. the speed of its crests b. the distance between crests c. the height of its crests d. the frequency of its crests 2. Waves are important in physics because they carry a. energy b. frequency c. wavelength d. velocity 3. All waves a. transport energy through a vacuum b. have the same speed c. are part of the electromagnetic spectrum d. have wavelength, velocity and frequency 4. In the following list, which...
please give me the answer to all of them thank you 8. -0 points My Notes...
please give me the answer
to all of them
thank you
8. -0 points My Notes Ask Your Teacher A particle with a mass of 0.340 kg is attached to a horizontal spring with a force constant of 3.0ō N m At the moment t moving to the left. (Assume that the positive direction is to the right.) 0 the partice has s maximum speed of 75ms and s (a) Determine the particle's equation of motion, specifying its position as...
To practice Problem-Solving Strategy 15.1 Mechanical Waves. Waves on a string are described by the following...
To practice Problem-Solving
Strategy 15.1 Mechanical Waves. Waves on a string are described by
the following general equation y(x,t)=Acos(kx−ωt). A transverse
wave on a string is traveling in the +x direction with a wave speed
of 7.50 m/s , an amplitude of 9.00×10−2 m , and a wavelength of
0.550 m . At time t=0, the x=0 end of the string has its maximum
upward displacement. Find the transverse displacement y of a
particle at x = 1.40 m and...
(a) Briefly explain what is meant by the following terms: refraction, refractive index, angle of incidence, angle of refraction. [4 marks] (b) The drawing shows four different situations in which a light ray is traveling from one medium into another. In some of the cases, the refraction is not shown correctly. For cases (i), (ii), and (iii), the angle of incidence is 55°; for case (iv), the angle of incidence is 0°. Identify which cases are incorrectly drawn and determine...
Find wavelength.
Find Frequency.
A sinusoidal electromagnetic wave in vacuum has magnetic-field amplitude 4.30 x 10-3 T and wave number 2.50 x 10Ⓡ rad/m. At a certain position and time the electric field points in the -y-direction and the magnetic field B points in the +1-direction. Find the amplitude of Ē.
1. The electric field of an electromagnetic wave traveling through vacuum is the following: 5.90x1 : + a. Draw a qualitative sketch of this E function for t = 0. Add the B field as well to complete the EM wave. Be sure to label the axes. Don't worry about your drawing ability. b. What is the magnitude of the magnetic field B.? C. What is the wavelength of the EM wave? d. What is the frequency of the EM...
the
speed of light in a vacuum is about
12. Which of the following relationships is (are) correct? All of these are correct 13. The angle of called the critical angle. at which all light striking a surface is totally internally reflected is largest, incidence / smallest, incidence / largest, refraction / smallest, refraction 14. Which of the following statements is INCORRECT about the following illustration? Normal Line Medium 1 Incident Ray] Surface a. Medium 1 is denser than medium...
5. Silicon crystals are transparent to a limited range of frequencies of light, with an index of refraction of 3.4. A light wave traveling through air (n = 1.00) has a frequency of 130 THz. In either order, find the following: a. Find the speed of this light in silicon: A. 8.8 x 10' m/s B. 1.2 x 108 m/s C. 1.5 x 108 m/s D. 1.8 * 108 m/s E. 2.0 x 108 m/s b. Find the wavelength of...
1) Two parallel beams of light are brought together on a surface. Each beam has wave length h-500 nm and intensity 1 W/m at the surface. What is the resultant intensity for each of the following path lengths or phase differences between the beams? Phase or path length difference Intensity (W/m) 0 radians (phase) T/2 radians (phase) 60 degrees (phase) 3π radians (phase) 300 nm (path length) 1000 nm (path length) 5.5 λ (path length) 2) A wave of wavelength...
please give me the answer
to all of them
thank you
8. -0 points My Notes Ask Your Teacher A particle with a mass of 0.340 kg is attached to a horizontal spring with a force constant of 3.0ō N m At the moment t moving to the left. (Assume that the positive direction is to the right.) 0 the partice has s maximum speed of 75ms and s (a) Determine the particle's equation of motion, specifying its position as...
To practice Problem-Solving
Strategy 15.1 Mechanical Waves. Waves on a string are described by
the following general equation y(x,t)=Acos(kx−ωt). A transverse
wave on a string is traveling in the +x direction with a wave speed
of 7.50 m/s , an amplitude of 9.00×10−2 m , and a wavelength of
0.550 m . At time t=0, the x=0 end of the string has its maximum
upward displacement. Find the transverse displacement y of a
particle at x = 1.40 m and...
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