In the figure, sound waves A and B, both of wavelength λ, are initially in phase and traveling rightward, as indicated by the two rays. Wave A is reflected from four surfaces but ends up traveling in its original direction. Wave B ends in that direction after reflecting from two surfaces. Let distance L in the figure be expressed as a multiple q of λ: L = qλ. What are the (a) smallest and (b) second smallest values of q that put A and B exactly out of phase with each other after the reflections?
In the figure, sound waves A and B, both of wavelength λ, are initially in phase...
In the figure, two light rays go through different paths by
reflecting from the various flat surfaces shown. The light waves
have a wavelength of 450.0 nm and are initially in phase. What are
the (a) smallest and (b)second smallest value of
distance L that will put the waves exactly out of phase as
they emerge from the region?
し2 Two light waves of wavelength 789.0 nm initially in phase when traveling in air pass through layers of plastic blocks as shown in the figure. Find the multiples of λ that gives their phase difference after emerging from the blocks. Take nl 1.180, n2 = 1.416, n3 = 1.410; L1 = 7.900 um and L2 = 5.925 um Tries 0/10 Submit Answer
Two loudspeakers, labeled A and B, emnit sound waves in every direction. Both speakers emit sound with the same wavelength, and they are in phase (they emit peaks of the sound wave at the same time). The location labeled C is a location of constructive interference, and the location labeled D is a location of destructive interference. The distances from the loudspeakers to the locations are as indicated. (Picture may not be to scale!!) (a) What is the wavelength of...
5 and 6
5. Figure 3 gives the lateral magnification m of an object versus the object distance p from a spherical mirror as the object is moved along the mirror's central axis through a range of values for p. The horizontal scale is set by p, 10.0 cm. What is the magnification of the object when the object is 21 cm from the mirror? (15 points) 6. In Figure 4, two light rays go through different paths by reflecting...
In the figure, assume two waves
of light in air, of wavelength 556 nm, are initially in phase. One
travels through a glass layer of index of refraction
n1 = 1.57 and thickness L. The other
travels through an equally thick plastic layer of index of
refraction n2 = 1.34. What is the smallest
value L in meters should have if the waves are to end up
with a phase difference of 4.96 rad?
In the figure, a sound of wavelength 0.700 m is emitted isotropically by point source S. Sound ray 1 extends directly to detector D, at distance L = 11.9 m. Sound ray 2 extends to D via a reflection (effectively a "bouncing") of the sound at a flat surface. The reflection occurs on a perpendicular bisector to the SD line, at distance d from the line. Assume that the reflection shifts the sound wave by 0.500λ. For what least value...
If the sources A and B in the figure (Figure 1) are emitting waves of wavelength λ that are in phase with each other, constructive interference will occur at point P if (there may be more than one correct choice):A. x=y.B. x+y=λ.C. x−y=2λ.D. x−y=5λ.
Answer Options:
A, B, CD, ACD, ABC, BD, AC
6 Part B Question 1 (20 marks). A source of waves of wavelength A and amplitude a is placed a distance d from a perfectly reflecting surface. The reflected waves can be considered as being due to a source a distance d below the surface, T out of phase with respect to the and oscillating waves from the original source. memor (4 narks) the total wave ow th disturbance at a far distant point P in a direction 8 with...
S.a) What is the wavelength of a sound wave general fundamental frequency is 128 Hz and it travels with spo the tube? sound wave generated in a tube with two open ends whose d it travels with speed of sound v = 340 m/s? (b) What is the length of (a) = (b) L= = 340 m/s, 11 o. (a) What length should a tube closed at one end have on a day when the speed of sound its fundamental...